Publication list

publication_uri	type	publication_title	year	doi	pmid	journal_uri
http://vivo.scripps.edu/individual/e2n238187	AcademicArticle	Conditional Lpar1 gene targeting identifies cell types mediating neuropathic pain	2020	10.1096/fj.202000317R		http://vivo.scripps.edu/individual/endnote8827
http://vivo.scripps.edu/individual/e2n229973	AcademicArticle	Abrogation of lysophosphatidic acid receptor 1 ameliorates murine vasculitis	2019	10.1186/s13075-019-1973-0	31429784	http://vivo.scripps.edu/individual/endnote354381
http://vivo.scripps.edu/individual/e2n278798	AcademicArticle	LPA(1), LPA(2), LPA(4), and LPA(6) receptor expression during mouse brain development	2019	10.1002/dvdy.23	30847983	http://vivo.scripps.edu/individual/endnote369844
http://vivo.scripps.edu/individual/e2n86269	AcademicArticle	Identification of sphingosine 1-phosphate receptor subtype 1 (S1P(1)) as a pathogenic factor in transient focal cerebral ischemia	2018	10.1007/s12035-017-0468-8	28343295	http://vivo.scripps.edu/individual/endnote215963
http://vivo.scripps.edu/individual/e2n15990	AcademicArticle	Synaptic phospholipid signaling modulates axon outgrowth via glutamate-dependent Ca2+-mediated molecular pathways	2017	10.1093/cercor/bhw370	27909001	http://vivo.scripps.edu/individual/endnote137395
http://vivo.scripps.edu/individual/e2n15942	AcademicArticle	Gradients of the signaling lipid S1P in lymph nodes position natural killer cells and regulate their interferon-γ response	2017	10.1038/ni.3619	27841869	http://vivo.scripps.edu/individual/endnote396893
http://vivo.scripps.edu/individual/e2n255431	AcademicArticle	Selective coupling of the S1P3 receptor subtype to S1P-mediated RhoA activation and cardioprotection	2017	10.1016/j.yjmcc.2016.12.008	28017639	http://vivo.scripps.edu/individual/endnote87313
http://vivo.scripps.edu/individual/e2n260319	AcademicArticle	Lysophosphatidic acid signaling through its receptor initiates profibrotic epithelial cell fibroblast communication mediated by epithelial cell derived connective tissue growth factor	2017	10.1016/j.kint.2016.09.030	27927603	http://vivo.scripps.edu/individual/endnote139522
http://vivo.scripps.edu/individual/e2n80254	AcademicArticle	Characterizing transcriptional heterogeneity through pathway and gene set overdispersion analysis	2016	10.1038/nmeth.3734	26780092	http://vivo.scripps.edu/individual/endnote37557
http://vivo.scripps.edu/individual/e2n30737	AcademicArticle	Blockade of sphingosine 1-phosphate receptor 2 signaling attenuates high-fat diet-induced adipocyte hypertrophy and systemic glucose intolerance in mice	2016	10.1210/en.2015-1768	26943364	http://vivo.scripps.edu/individual/endnote257876
http://vivo.scripps.edu/individual/e2n312640	AcademicArticle	ATX-LPA1 axis contributes to proliferation of chondrocytes by regulating fibronectin assembly leading to proper cartilage formation	2016	10.1038/srep23433	27005960	http://vivo.scripps.edu/individual/endnote390173
http://vivo.scripps.edu/individual/e2n60033	AcademicArticle	Platelet and erythrocyte sources of S1P are redundant for vascular development and homeostasis, but both rendered essential after plasma S1P depletion in anaphylactic shock	2016	10.1161/circresaha.116.308929	27582371	http://vivo.scripps.edu/individual/endnote92163
http://vivo.scripps.edu/individual/e2n294631	AcademicArticle	Sphingosine-1-phosphate receptor 1 regulates cardiac function by modulating Ca2+ sensitivity and Na+/H+ exchange and mediates protection by ischemic preconditioning	2016	10.1161/jaha.116.003393	27207969	http://vivo.scripps.edu/individual/e6n33377
http://vivo.scripps.edu/individual/e2n54283	AcademicArticle	Carboxyl terminus-truncated α1D-adrenoceptors inhibit the ERK pathway	2016	10.1007/s00210-016-1254-2	27146292	http://vivo.scripps.edu/individual/endnote68566
http://vivo.scripps.edu/individual/e2n290083	AcademicArticle	Lysophosphatidic acid signaling through the lysophosphatidic acid-1 receptor is required for alveolarization	2016	10.1165/rcmb.2015-0152OC	27082727	http://vivo.scripps.edu/individual/endnote250128
http://vivo.scripps.edu/individual/e2n48968	AcademicArticle	Spinal cord compression injury in lysophosphatidic acid 1 receptor-null mice promotes maladaptive pronociceptive descending control	2016	10.1002/ejp.695	25820316	http://vivo.scripps.edu/individual/e2n48394
http://vivo.scripps.edu/individual/e2n16195	AcademicArticle	Biological effects of naturally occurring sphingolipids, uncommon variants, and their analogs	2016	10.1007/s12017-016-8424-8	27393119	http://vivo.scripps.edu/individual/endnote58486
http://vivo.scripps.edu/individual/e2n292176	AcademicArticle	Sphingosine 1-phosphate receptor-1 in cardiomyocytes is required for normal cardiac development	2016	10.1016/j.ydbio.2016.06.024	27333774	http://vivo.scripps.edu/individual/endnote334872
http://vivo.scripps.edu/individual/e2n26999	AcademicArticle	Neuronal subtypes and diversity revealed by single-nucleus RNA sequencing of the human brain	2016	10.1126/science.aaf1204	27339989	http://vivo.scripps.edu/individual/endnote276633
http://vivo.scripps.edu/individual/e2n168193	AcademicArticle	Sphingosine 1-phosphate receptor 2 (S1P(2)) attenuates reactive oxygen species formation and inhibits cell death: implications for otoprotective therapy	2016	10.1038/srep24541	27080739	http://vivo.scripps.edu/individual/endnote390173
http://vivo.scripps.edu/individual/e2n126370	AcademicArticle	LPA signaling initiates schizophrenia-like brain and behavioral changes in a mouse model of prenatal brain hemorrhage	2015	10.1038/tp.2015.33	25849980	http://vivo.scripps.edu/individual/enote292952
http://vivo.scripps.edu/individual/e2n57423	AcademicArticle	Genetic and functional evidence supports LPAR1 as a susceptibility gene for hypertension	2015	10.1161/hypertensionaha.115.05515	26123684	http://vivo.scripps.edu/individual/endnote244853
http://vivo.scripps.edu/individual/e2n122174	AcademicArticle	Promising pharmacological directions in the world of lysophosphatidic Acid signaling	2015	10.4062/biomolther.2014.109	25593637	http://vivo.scripps.edu/individual/endnote70955
http://vivo.scripps.edu/individual/e2n287828	AcademicArticle	Anatomical location of LPA1 activation and LPA phospholipid precursors in rodent and human brain	2015	10.1111/jnc.13112	25857358	http://vivo.scripps.edu/individual/endnote174064
http://vivo.scripps.edu/individual/e2n142176	AcademicArticle	Loss of lysophosphatidic acid receptor LPA(1) alters oligodendrocyte differentiation and myelination in the mouse cerebral cortex	2015	10.1007/s00429-014-0885-7	25226845	http://vivo.scripps.edu/individual/enote288020
http://vivo.scripps.edu/individual/e2n5776	AcademicArticle	Dimethyl fumarate inhibits integrin alpha4 expression in multiple sclerosis models	2015	10.1002/acn3.251	26478898	http://vivo.scripps.edu/individual/e2n185938
http://vivo.scripps.edu/individual/e2n359349	AcademicArticle	Exogenous S1P exposure potentiates ischemic stroke damage that is reduced possibly by inhibiting S1P receptor signaling	2015	10.1155/2015/492659	26576074	http://vivo.scripps.edu/individual/endnote56538
http://vivo.scripps.edu/individual/e2n38447	AcademicArticle	Genomic mosaicism with increased amyloid precursor protein (APP) gene copy number in single neurons from sporadic Alzheimer's disease brains	2015	10.7554/eLife.05116	25650802	http://vivo.scripps.edu/individual/e2n358763
http://vivo.scripps.edu/individual/e2n25717	AcademicArticle	Crystal structure of antagonist bound human lysophosphatidic acid receptor 1	2015	10.1016/j.cell.2015.06.002	26091040	http://vivo.scripps.edu/individual/endnote126238
http://vivo.scripps.edu/individual/e2n168550	AcademicArticle	Lysophosphatidic Acid signaling in the nervous system	2015	10.1016/j.neuron.2015.01.009	25695267	http://vivo.scripps.edu/individual/endnote84097
http://vivo.scripps.edu/individual/e2n364663	AcademicArticle	Lysophospholipid receptors in drug discovery	2015	10.1016/j.yexcr.2014.11.020	25499971	http://vivo.scripps.edu/individual/endnote276063
http://vivo.scripps.edu/individual/e2n46334	AcademicArticle	Lysophosphatidic acid signalling in development	2015	10.1242/dev.121723	25852197	http://vivo.scripps.edu/individual/endnote102715
http://vivo.scripps.edu/individual/e2n140182	AcademicArticle	Activation of lysophosphatidic acid receptor type 1 contributes to pathophysiology of spinal cord injury	2015	10.1523/jneurosci.4703-14.2015	26180199	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/e13n71606	AcademicArticle	Lysophosphatidic acid receptor type 1 (LPA1) plays a functional role in osteoclast differentiation and bone resorption activity	2014	10.1074/jbc.M113.533232	24429286	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/e13n94714	AcademicArticle	An introduction to the Journal of Lipid Research Thematic Series on lysophospholipids	2014	10.1194/jlr.E049403	24652606	http://vivo.scripps.edu/individual/endnote342391
http://vivo.scripps.edu/individual/e13n191821	AcademicArticle	Matricellular protein Cyr61 bridges lysophosphatidic acid and integrin pathways leading to cell migration	2014	10.1074/jbc.M113.533042	24371135	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/e14n132659	AcademicArticle	LPA receptor signaling: pharmacology, physiology, and pathophysiology	2014	10.1194/jlr.R046458	24643338	http://vivo.scripps.edu/individual/endnote342391
http://vivo.scripps.edu/individual/e2n321185	AcademicArticle	Lysophospholipid receptor nomenclature review: IUPHAR Review 8	2014	10.1111/bph.12678	24602016	http://vivo.scripps.edu/individual/endnote298379
http://vivo.scripps.edu/individual/e2n47649	AcademicArticle	Calcitonin controls bone formation by inhibiting the release of sphingosine 1-phosphate from osteoclasts	2014	10.1038/ncomms6215	25333900	http://vivo.scripps.edu/individual/endnote367622
http://vivo.scripps.edu/individual/e10n104194	AcademicArticle	Sphingosine 1-phosphate receptors are essential mediators of eyelid closure during embryonic development	2013	10.1074/jbc.M113.510099	24003216	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/e1n369994	AcademicArticle	Fingolimod: direct CNS effects of sphingosine 1-phosphate (S1P) receptor modulation and implications in multiple sclerosis therapy	2013	10.1016/j.jns.2013.02.011	23518370	http://vivo.scripps.edu/individual/endnote320334
http://vivo.scripps.edu/individual/e1n166458	AcademicArticle	Distinct phospholipase C-β isozymes mediate lysophosphatidic acid receptor 1 effects on intestinal epithelial homeostasis and wound closure	2013	10.1128/mcb.00038-13	23478264	http://vivo.scripps.edu/individual/endnote52493
http://vivo.scripps.edu/individual/e1n332454	AcademicArticle	Involvement of LPA1 receptor signaling in cerebral ischemia-induced neuropathic pain	2013	10.1016/j.neuroscience.2013.01.005	23318243	http://vivo.scripps.edu/individual/endnote130130
http://vivo.scripps.edu/individual/e1n346571	AcademicArticle	LPA1-induced cytoskeleton reorganization drives fibrosis through CTGF-dependent fibroblast proliferation	2013	10.1096/fj.12-219378	23322166	http://vivo.scripps.edu/individual/endnote8827
http://vivo.scripps.edu/individual/e1n330958	AcademicArticle	The genomically mosaic brain: Aneuploidy and more in neural diversity and disease	2013	10.1016/j.semcdb.2013.02.003	23466288	http://vivo.scripps.edu/individual/e1n158399
http://vivo.scripps.edu/individual/e3n61644	AcademicArticle	An LPA species (18:1 LPA) plays key roles in the self-amplification of spinal LPA production in the peripheral neuropathic pain model	2013	10.1186/1744-8069-9-29	23773289	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/e3n289650	AcademicArticle	Necessity of lysophosphatidic acid receptor 1 for development of arthritis	2013	10.1002/art.37991	23666827	http://vivo.scripps.edu/individual/endnote386556
http://vivo.scripps.edu/individual/e6n145534	AcademicArticle	Autotaxin production of lysophosphatidic acid mediates allergic asthmatic inflammation	2013	10.1164/rccm.201306-1014OC	24050723	http://vivo.scripps.edu/individual/endnote69751
http://vivo.scripps.edu/individual/e6n328826	AcademicArticle	Reduced wheel running and blunted effects of voluntary exercise in LPA(1)-null mice: The importance of assessing the amount of running in transgenic mice studies	2013	10.1016/j.neures.2013.09.004	24055600	http://vivo.scripps.edu/individual/endnote167551
http://vivo.scripps.edu/individual/e6n137823	AcademicArticle	Lysophosphatidic acid (LPA) and its receptor, LPA1 , influence embryonic schwann cell migration, myelination, and cell-to-axon segregation	2013	10.1002/glia.22572	24115248	http://vivo.scripps.edu/individual/endnote232713
http://vivo.scripps.edu/individual/e7n255366	AcademicArticle	Massively parallel polymerase cloning and genome sequencing of single cells using nanoliter microwells	2013	10.1038/nbt.2720	24213699	http://vivo.scripps.edu/individual/endnote208688
http://vivo.scripps.edu/individual/e7n117358	AcademicArticle	Lysophosphatidic acid receptor-2 deficiency confers protection against bleomycin-induced lung injury and fibrosis in mice	2013	10.1165/rcmb.2013-0070OC	23808384	http://vivo.scripps.edu/individual/endnote250128
http://vivo.scripps.edu/individual/enote372882	AcademicArticle	Lysophospholipids and their receptors in the central nervous system	2013	10.1016/j.bbalip.2012.07.015	22884303	http://vivo.scripps.edu/individual/endnote161747
http://vivo.scripps.edu/individual/endnote315905	AcademicArticle	Sphingosine 1-phosphate-mediated alpha(1b)-adrenoceptor desensitization and phosphorylation. Direct and paracrine/autocrine actions	2012	10.1016/j.bbamcr.2011.10.002	22019450	http://vivo.scripps.edu/individual/endnote108236
http://vivo.scripps.edu/individual/endnote174891	AcademicArticle	Insights into the pharmacological relevance of lysophospholipid receptors	2012	10.1111/j.1476-5381.2011.01622.x	21838759	http://vivo.scripps.edu/individual/endnote298379
http://vivo.scripps.edu/individual/endnote350359	AcademicArticle	11-deoxy prostaglandin F(2 alpha), a thromboxane A2 receptor agonist, partially alleviates embryo crowding in Lpar3(-/-) females	2012	10.1016/j.fertnstert.2011.12.004	22222195	http://vivo.scripps.edu/individual/endnote125737
http://vivo.scripps.edu/individual/endnote225384	AcademicArticle	The lysophosphatidic acid receptor lpa(1) promotes epithelial cell apoptosis after lung injury	2012	10.1165/rcmb.2010-0155OC	22021336	http://vivo.scripps.edu/individual/endnote250128
http://vivo.scripps.edu/individual/endnote175619	AcademicArticle	Lysophosphatidic acid signaling protects pulmonary vasculature from hypoxia-induced remodeling	2012	10.1161/atvbaha.111.234708	22015657	http://vivo.scripps.edu/individual/enote27167
http://vivo.scripps.edu/individual/enote201921	AcademicArticle	Targeted deletion of LPA5 identifies novel roles for lysophosphatidic acid signaling in development of neuropathic pain	2012	10.1074/jbc.M111.330183	22461625	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/enote239642	AcademicArticle	Chronic immobilization in the malpar1 knockout mice increases oxidative stress in the hippocampus	2012	10.3109/00207454.2012.693998	22591409	http://vivo.scripps.edu/individual/endnote233010
http://vivo.scripps.edu/individual/enote116118	AcademicArticle	Hippocampal c-Fos activation in normal and LPA1-null mice after two object recognition tasks with different memory demands	2012	10.1016/j.bbr.2012.04.018	22537775	http://vivo.scripps.edu/individual/endnote70642
http://vivo.scripps.edu/individual/enote280479	AcademicArticle	Aneuploid cells are differentially susceptible to caspase-mediated death during embryonic cerebral cortical development	2012	10.1523/jneurosci.3706-12.2012	23152605	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/e2n223852	AcademicArticle	A Reply to lourov et al	2011	10.1159/000315399		http://vivo.scripps.edu/individual/endnote349723
http://vivo.scripps.edu/individual/e2n100763	AcademicArticle	A mechanistically novel, first oral therapy for multiple sclerosis: the development of fingolimod (FTY720, Gilenya)	2011		21955849	http://vivo.scripps.edu/individual/e6n3848
http://vivo.scripps.edu/individual/e2n62105	AcademicArticle	Fingolimod treatment for multiple sclerosis patients What do we do with varicella? Reply	2011	10.1002/ana.22603		http://vivo.scripps.edu/individual/endnote69513
http://vivo.scripps.edu/individual/e9n387334	AcademicArticle	FISH analysis of human pluripotent stem cells	2011	10.1007/978-1-61779-201-4_14	21822876	http://vivo.scripps.edu/individual/enote13799
http://vivo.scripps.edu/individual/endnote281273	AcademicArticle	Stereotyped fetal brain disorganization is induced by hypoxia and requires lysophosphatidic acid receptor 1 (LPA1) signaling	2011	10.1073/pnas.1106129108	21878565	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote183234	AcademicArticle	Absence of the lysophosphatidic acid receptor LPA1 results in abnormal bone development and decreased bone mass	2011	10.1016/j.bone.2011.04.018	21569876	http://vivo.scripps.edu/individual/endnote116445
http://vivo.scripps.edu/individual/endnote104555	AcademicArticle	Lysophosphatidic acid receptor 1 modulates lipopolysaccharide-induced inflammation in alveolar epithelial cells and murine lungs	2011	10.1152/ajplung.00058.2011	21821728	http://vivo.scripps.edu/individual/endnote326288
http://vivo.scripps.edu/individual/endnote399048	AcademicArticle	Unique uterine localization and regulation may differentiate LPA3 from other lysophospholipid receptors for its role in embryo implantation	2011	10.1016/j.fertnstert.2011.02.024	21411082	http://vivo.scripps.edu/individual/endnote125737
http://vivo.scripps.edu/individual/endnote372355	AcademicArticle	Roles for lysophospholipid S1P receptors in multiple sclerosis	2011	10.3109/10409238.2010.522975	20979571	http://vivo.scripps.edu/individual/endnote223771
http://vivo.scripps.edu/individual/endnote289735	AcademicArticle	Aggravation of chronic stress effects on hippocampal neurogenesis and spatial memory in LPA(1) receptor knockout mice	2011	10.1371/journal.pone.0025522	21980482	http://vivo.scripps.edu/individual/endnote150335
http://vivo.scripps.edu/individual/endnote43331	AcademicArticle	S1P activates store-operated calcium entry via receptor- and non-receptor-mediated pathways in vascular smooth muscle cells	2011	10.1152/ajpcell.00350.2010	21270296	http://vivo.scripps.edu/individual/endnote173548
http://vivo.scripps.edu/individual/endnote281661	AcademicArticle	Frequent spontaneous seizures followed by spatial working memory/anxiety deficits in mice lacking sphingosine 1-phosphate receptor 2	2011	10.1016/j.yebeh.2011.09.002	22019019	http://vivo.scripps.edu/individual/endnote136739
http://vivo.scripps.edu/individual/endnote394807	AcademicArticle	Altered spatiotemporal expression of collagen types l, lll, lV, and Vl in Lpar3-deficient peri-implantation mouse uterus	2011	10.1095/biolreprod.110.086942	20864640	http://vivo.scripps.edu/individual/endnote316400
http://vivo.scripps.edu/individual/endnote224224	AcademicArticle	Mechanisms of fingolimod's efficacy and adverse effects in multiple sclerosis	2011	10.1002/ana.22426	21520239	http://vivo.scripps.edu/individual/endnote69513
http://vivo.scripps.edu/individual/endnote317488	AcademicArticle	FTY720 (fingolimod) efficacy in an animal model of multiple sclerosis requires astrocyte sphingosine 1-phosphate receptor 1 (S1P1) modulation	2011	10.1073/pnas.1014154108	21177428	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote257285	AcademicArticle	Lipoprotein-derived lysophosphatidic acid promotes atherosclerosis by releasing CXCL1 from the endothelium	2011	10.1016/j.cmet.2011.02.016	21531341	http://vivo.scripps.edu/individual/endnote333641
http://vivo.scripps.edu/individual/endnote344332	AcademicArticle	Lysophosphatidic acid signaling may initiate fetal hydrocephalus	2011	10.1126/scitranslmed.3002095	21900594	http://vivo.scripps.edu/individual/endnote39310
http://vivo.scripps.edu/individual/endnote253942	AcademicArticle	Normal human pluripotent stem cell lines exhibit pervasive mosaic aneuploidy	2011	10.1371/journal.pone.0023018	21857983	http://vivo.scripps.edu/individual/endnote150335
http://vivo.scripps.edu/individual/endnote118732	AcademicArticle	Amelioration of dermal fibrosis by genetic deletion or pharmacologic antagonism of lysophosphatidic acid receptor 1 in a mouse model of scleroderma	2011	10.1002/art.30262	21305523	http://vivo.scripps.edu/individual/endnote386556
http://vivo.scripps.edu/individual/endnote269366	AcademicArticle	The neurobiology of sphingosine 1-phosphate signaling and sphingosine 1-phosphate receptor modulators	2011	10.1212/WNL.0b013e31820d9507	21339490	http://vivo.scripps.edu/individual/endnote257287
http://vivo.scripps.edu/individual/endnote107839	AcademicArticle	TNF-alpha promotes LPA1- and LPA3-mediated recruitment of leukocytes in vivo through CXCR2 ligand chemokines	2011	10.1194/jlr.M008045	21521824	http://vivo.scripps.edu/individual/endnote342391
http://vivo.scripps.edu/individual/e2n101311	AcademicArticle	Progesterone receptor-mediated up-regulation of transthyretin in preimplantation mouse uterus	2010	10.1016/j.fertnstert.2010.01.009	20188365	http://vivo.scripps.edu/individual/endnote125737
http://vivo.scripps.edu/individual/e2n120314	AcademicArticle	LPA receptors: subtypes and biological actions	2010	10.1146/annurev.pharmtox.010909.105753	20055701	http://vivo.scripps.edu/individual/endnote260423
http://vivo.scripps.edu/individual/e2n36850	AcademicArticle	Lysophospholipid receptors LPA1-3 are not required for the inhibitory effects of LPA on mouse retinal growth cones	2010	10.2147/EB.S7666	26966392	http://vivo.scripps.edu/individual/e2n297318
http://vivo.scripps.edu/individual/e2n129477	AcademicArticle	International Union of Basic and Clinical Pharmacology. LXXVIII. Lysophospholipid receptor nomenclature	2010	10.1124/pr.110.003111	21079037	http://vivo.scripps.edu/individual/endnote324056
http://vivo.scripps.edu/individual/e2n385340	AcademicArticle	Lysophosphatidic acid (LPA) signaling in vertebrate reproduction	2010	10.1016/j.tem.2009.08.003	19836970	http://vivo.scripps.edu/individual/endnote120521
http://vivo.scripps.edu/individual/endnote302775	AcademicArticle	Autotaxin and lysophosphatidic acid(1) receptor-mediated demyelination of dorsal root fibers by sciatic nerve injury and intrathecal lysophosphatidylcholine	2010	10.1186/1744-8069-6-78	21062487	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/endnote263967	AcademicArticle	Diversity of lysophosphatidic acid receptor-mediated intracellular calcium signaling in early cortical neurogenesis	2010	10.1523/jneurosci.6151-09.2010	20505096	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote44662	AcademicArticle	Targeting lysophospholipid S1P receptors for the treatment of multiple sclerosis	2010	10.1358/dof.2010.035.06.1497496		http://vivo.scripps.edu/individual/endnote288580
http://vivo.scripps.edu/individual/endnote146555	AcademicArticle	Lysophosphatidic acid stimulates the intestinal brush border NA(+)/H(+) exchanger 3 and fluid absorption via LPA(5) and NHERF	2010	10.1053/j.gastro.2009.09.055	19800338	http://vivo.scripps.edu/individual/endnote102970
http://vivo.scripps.edu/individual/endnote118060	AcademicArticle	Lysophosphatidic acid (LPA) receptors: Signaling properties and disease relevance	2010	10.1016/j.prostaglandins.2009.02.002	20331961	http://vivo.scripps.edu/individual/endnote122744
http://vivo.scripps.edu/individual/endnote67019	AcademicArticle	Neurological S1P signaling as an emerging mechanism of action of oral FTY720 (fingolimod) in multiple sclerosis	2010	10.1007/s12272-010-1008-5	21052934	http://vivo.scripps.edu/individual/endnote205659
http://vivo.scripps.edu/individual/endnote39621	AcademicArticle	Prolonged exposure to sphingosine 1-phosphate receptor-1 agonists exacerbates vascular leak, fibrosis, and mortality after lung injury	2010	10.1165/rcmb.2009-0345OC	20081052	http://vivo.scripps.edu/individual/endnote250128
http://vivo.scripps.edu/individual/endnote395486	AcademicArticle	Exploratory, anxiety and spatial memory impairments are dissociated in mice lacking the LPA1 receptor	2010	10.1016/j.nlm.2010.04.003	20388543	http://vivo.scripps.edu/individual/endnote239842
http://vivo.scripps.edu/individual/endnote348999	AcademicArticle	Neuronal DNA content variation (DCV) with regional and individual differences in the human brain	2010	10.1002/cne.22436	20737596	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote385971	AcademicArticle	The absence of LPA receptor 2 reduces the tumorigenesis by ApcMin mutation in the intestine	2010	10.1152/ajpgi.00321.2010	20724530	http://vivo.scripps.edu/individual/endnote37595
http://vivo.scripps.edu/individual/endnote158922	AcademicArticle	Intravenous sphingosylphosphorylcholine protects ischemic and postischemic myocardial tissue in a mouse model of myocardial ischemia/reperfusion injury	2010	10.1155/2010/425191	21274265	http://vivo.scripps.edu/individual/endnote56538
http://vivo.scripps.edu/individual/endnote77898	AcademicArticle	S1P3-mediated cardiac fibrosis in sphingosine kinase 1 transgenic mice involves reactive oxygen species	2010	10.1093/cvr/cvp312	19755413	http://vivo.scripps.edu/individual/endnote187679
http://vivo.scripps.edu/individual/endnote293623	AcademicArticle	Calpain-mediated down-regulation of myelin-associated glycoprotein in lysophosphatidic acid-induced neuropathic pain	2010	10.1111/j.1471-4159.2010.06664.x	20420580	http://vivo.scripps.edu/individual/endnote174064
http://vivo.scripps.edu/individual/endnote103183	AcademicArticle	Mechanism of action of oral fingolimod (FTY720) in multiple sclerosis	2010	10.1097/WNF.0b013e3181cbf825	20061941	http://vivo.scripps.edu/individual/endnote125283
http://vivo.scripps.edu/individual/endnote322107	AcademicArticle	Blockade of sphingosine 1-phosphate receptor 2 signaling attenuates streptozotocin-induced apoptosis of pancreatic beta-cells	2010	10.1016/j.bbrc.2010.01.016	20060809	http://vivo.scripps.edu/individual/endnote22949
http://vivo.scripps.edu/individual/endnote51966	AcademicArticle	A reevaluation of tetraploidy in the Alzheimer's disease brain	2009	10.1159/000236901	19738367	http://vivo.scripps.edu/individual/endnote349723
http://vivo.scripps.edu/individual/endnote171152	AcademicArticle	The absence of LPA2 attenuates tumor formation in an experimental model of colitis-associated cancer	2009	10.1053/j.gastro.2009.01.002	19328876	http://vivo.scripps.edu/individual/endnote102970
http://vivo.scripps.edu/individual/endnote206548	AcademicArticle	Involvement of the ABC-transporter ABCC1 and the sphingosine 1-phosphate receptor subtype S1P(3) in the cytoprotection of human fibroblasts by the glucocorticoid dexamethasone	2009	10.1007/s00109-009-0468-x	19370318	http://vivo.scripps.edu/individual/endnote26738
http://vivo.scripps.edu/individual/endnote183193	AcademicArticle	Lysophosphatidic acid in vascular development and disease	2009	10.1002/iub.220	19621353	http://vivo.scripps.edu/individual/endnote94730
http://vivo.scripps.edu/individual/endnote58050	AcademicArticle	Behavioral phenotype of maLPA1-null mice: Increased anxiety-like behavior and spatial memory deficits	2009	10.1111/j.1601-183X.2009.00524.x	19689455	http://vivo.scripps.edu/individual/endnote49199
http://vivo.scripps.edu/individual/endnote94596	AcademicArticle	T-bet-dependent S1P5 expression in NK cells promotes egress from lymph nodes and bone marrow	2009	10.1084/jem.20090525	19808259	http://vivo.scripps.edu/individual/endnote111556
http://vivo.scripps.edu/individual/endnote123602	AcademicArticle	Lysophosphatidic acid (LPA) and its receptors	2009	10.1016/j.coph.2008.11.010	19119080	http://vivo.scripps.edu/individual/endnote31401
http://vivo.scripps.edu/individual/endnote91463	AcademicArticle	Synaptic PRG-1 modulates excitatory transmission via lipid phosphate-mediated signaling	2009	10.1016/j.cell.2009.06.050	19766573	http://vivo.scripps.edu/individual/endnote126238
http://vivo.scripps.edu/individual/endnote30279	AcademicArticle	Role of lysophosphatidic acid receptor LPA(2) in the development of allergic airway inflammation in a murine model of asthma	2009	10.1186/1465-9921-10-114	19930563	http://vivo.scripps.edu/individual/endnote69985
http://vivo.scripps.edu/individual/endnote95654	AcademicArticle	Mathematical modeling supports substantial mouse neural progenitor cell death	2009	10.1186/1749-8104-4-28	19602274	http://vivo.scripps.edu/individual/endnote264981
http://vivo.scripps.edu/individual/endnote212872	AcademicArticle	Lysophosphatidic acid-3 receptor-mediated feed-forward production of lysophosphatidic acid: An initiator of nerve injury-induced neuropathic pain	2009	10.1186/1744-8069-5-64	19912636	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/endnote353011	AcademicArticle	Sphingosine 1-phosphate regulates regeneration and fibrosis after liver injury via sphingosine 1-phosphate receptor 2	2009	10.1194/jlr.M800496-JLR200	18955732	http://vivo.scripps.edu/individual/endnote342391
http://vivo.scripps.edu/individual/e2n77780	AcademicArticle	Biological effects of lysophospholipids	2008	10.1007/112_0507		http://vivo.scripps.edu/individual/endnote375702
http://vivo.scripps.edu/individual/e2n379738	AcademicArticle	Lysophospholipid activation of G protein-coupled receptors	2008	10.1007/978-1-4020-8831-5_10	18751915	http://vivo.scripps.edu/individual/e2n388290
http://vivo.scripps.edu/individual/e2n114698	AcademicArticle	Lysophosphatidylcholine induces neuropathic pain through an action of autotaxin to generate lysophosphatidic acid	2008	10.1016/j.neuroscience.2007.12.041	18280050	http://vivo.scripps.edu/individual/endnote130130
http://vivo.scripps.edu/individual/e9n85384	AcademicArticle	Chromosomal mosaicism in neural stem cells	2008	10.1007/978-1-59745-133-8_16	18369759	http://vivo.scripps.edu/individual/enote13799
http://vivo.scripps.edu/individual/endnote321701	AcademicArticle	Biological roles of lysophospholipid receptors revealed by genetic null mice: An update	2008	10.1016/j.bbalip.2008.03.004	18407842	http://vivo.scripps.edu/individual/endnote161747
http://vivo.scripps.edu/individual/endnote223655	AcademicArticle	Lysophosphatidic acid-induced c-fos up-regulation involves cyclic AMP response element-binding protein activated by mitogen- and stress-activated protein kinase-1	2008	10.1002/jcb.21663	18172855	http://vivo.scripps.edu/individual/endnote213837
http://vivo.scripps.edu/individual/endnote61129	AcademicArticle	Lysophosphatidic acid stimulates astrocyte proliferation through LPA1	2008	10.1016/j.neuint.2007.07.004	17692995	http://vivo.scripps.edu/individual/endnote135166
http://vivo.scripps.edu/individual/endnote180816	AcademicArticle	The lysophosphatidic acid receptor LPA1 links pulmonary fibrosis to lung injury by mediating fibroblast recruitment and vascular leak	2008	10.1038/nm1685	18066075	http://vivo.scripps.edu/individual/endnote267122
http://vivo.scripps.edu/individual/endnote144843	AcademicArticle	Absence of LPA1 signaling results in defective cortical development	2008	10.1093/cercor/bhm132	17656621	http://vivo.scripps.edu/individual/endnote137395
http://vivo.scripps.edu/individual/endnote223417	AcademicArticle	S1P1 receptor localization confers selectivity for Gi mediated cAMP and contractile responses	2008	10.1074/jbc.M707422200	18296752	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote390267	AcademicArticle	Age-dependent loss of sperm production in mice via impaired tysophosphatidic acid signaling	2008	10.1095/biolreprod.108.068783	18448840	http://vivo.scripps.edu/individual/endnote316400
http://vivo.scripps.edu/individual/endnote350624	AcademicArticle	Analysis of sphingosine 1-phosphate receptors involved in constriction of isolated cerebral arteries with receptor null mice and pharmacological tools	2008	10.1038/sj.bjp.0707581	18026125	http://vivo.scripps.edu/individual/endnote298379
http://vivo.scripps.edu/individual/endnote392199	AcademicArticle	HDL-associated lysosphingolipids inhibit NAD(P)H oxidase-dependent monocyte chemoattractant protein-1 production	2008	10.1161/atvbaha.107.161042	18483405	http://vivo.scripps.edu/individual/enote27167
http://vivo.scripps.edu/individual/endnote5340	AcademicArticle	Dendritic cell PAR1-S1P3 signalling couples coagulation and inflammation	2008	10.1038/nature06663	18305483	http://vivo.scripps.edu/individual/endnote351395
http://vivo.scripps.edu/individual/endnote303262	AcademicArticle	Aneuploid mosaicism in the developing and adult cerebellar cortex	2008	10.1002/cne.21648	18273885	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote235889	AcademicArticle	Deletion of lysophosphatidic acid receptor LPA1 reduces neurogenesis in the mouse dentate gyrus	2008	10.1016/j.mcn.2008.07.014	18708146	http://vivo.scripps.edu/individual/endnote102980
http://vivo.scripps.edu/individual/endnote16225	AcademicArticle	Autotaxin, a synthetic enzyme of lysophosphatidic acid (LPA), mediates the induction of nerve-injured neuropathic pain	2008	10.1186/1744-8069-4-6	18261210	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/endnote270541	AcademicArticle	Lysophosphatidic acid receptor-dependent secondary effects via astrocytes promote neuronal differentiation	2008	10.1074/jbc.M707758200	18198181	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote385851	AcademicArticle	Lysophosphatidic acid receptors 1 and 2 play roles in regulation of vascular injury responses but not blood pressure	2008	10.1161/circresaha.108.180778	18703779	http://vivo.scripps.edu/individual/endnote92163
http://vivo.scripps.edu/individual/endnote205101	AcademicArticle	Involvement of LPA1 receptor signaling in the reorganization of spinal input through abeta-fibers in mice with partial sciatic nerve injury	2008	10.1186/1744-8069-4-46	18854053	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/e2n395827	AcademicArticle	The real phospholipid story? Reply	2007			http://vivo.scripps.edu/individual/endnote217720
http://vivo.scripps.edu/individual/e2n9362	AcademicArticle	The sources of a lipid conundrum	2007	10.1126/science.1142239	17431159	http://vivo.scripps.edu/individual/endnote276633
http://vivo.scripps.edu/individual/e2n319291	AcademicArticle	How the lysophospholipid got its receptor	2007			http://vivo.scripps.edu/individual/endnote217720
http://vivo.scripps.edu/individual/endnote62642	AcademicArticle	Sphingosine 1-phosphate S1P signaling is required for maintenance of hair cells mainly via activation of S1P2	2007	10.1523/jneurosci.4245-06.2007	17287522	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote276053	AcademicArticle	Potential therapeutic roles of lysophospholipid signaling in autoimmune-related disease	2007	10.2217/17460875.2.5.535		http://vivo.scripps.edu/individual/endnote361801
http://vivo.scripps.edu/individual/endnote370671	AcademicArticle	LPA(4)/GPR23 is a lysophosphatidic acid (LPA) receptor utilizing G(s)-, G(q)/G(i)-mediated calcium signaling and G(12/13)-mediated Rho activation	2007	10.1074/jbc.M610826200	17166850	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote147574	AcademicArticle	Immunomodulator FTY720 induces myofibroblast differentiation via the lysophospholipid receptor S1P3 and Smad3 signaling	2007	10.2353/ajpath.2007.060485	17200201	http://vivo.scripps.edu/individual/endnote90427
http://vivo.scripps.edu/individual/endnote237588	AcademicArticle	Sphingosine 1-phosphate S1P2 and S1P3 receptor-mediated akt activation protects against in vivo myocardial ischemia-reperfusion injury	2007	10.1152/ajpheart.01331.2006	17293497	http://vivo.scripps.edu/individual/endnote88320
http://vivo.scripps.edu/individual/endnote95915	AcademicArticle	Effects of LPA and S1P on the nervous system and implications for their involvement in disease	2007	10.2174/138945007779315669	17266539	http://vivo.scripps.edu/individual/endnote288806
http://vivo.scripps.edu/individual/endnote36754	AcademicArticle	Lysophosphatidic acid stimulates neuronal differentiation of cortical neuroblasts through the LPA1-G(i/o) pathway	2007	10.1016/j.neuint.2006.09.008	17056154	http://vivo.scripps.edu/individual/endnote135166
http://vivo.scripps.edu/individual/endnote303565	AcademicArticle	LPA1 receptor activation promotes renal interstitial fibrosis	2007	10.1681/asn.2007020196	18003779	http://vivo.scripps.edu/individual/endnote55757
http://vivo.scripps.edu/individual/endnote74684	AcademicArticle	Numerical chromosome variation and mitotic segregation defects in the adult brain of teleost fish	2007	10.1002/dneu.20365	17638379	http://vivo.scripps.edu/individual/endnote287963
http://vivo.scripps.edu/individual/endnote366690	AcademicArticle	Sphingosine-1-phosphate stimulates the functional capacity of progenitor cells by activation of the CXCR4-dependent signaling pathway via the S1P3 receptor	2007	10.1161/01.atv.0000254669.12675.70	17158356	http://vivo.scripps.edu/individual/enote27167
http://vivo.scripps.edu/individual/endnote186735	AcademicArticle	The sphingosine 1-phosphate receptor S1P2 triggers hepatic wound healing	2007	10.1096/fj.06-6889com	17341687	http://vivo.scripps.edu/individual/endnote8827
http://vivo.scripps.edu/individual/endnote27204	AcademicArticle	Embryo spacing and implantation timing are differentially regulated by LPA3-mediated lysophosphatidic acid signaling in mice	2007	10.1095/biolreprod.107.060293	17823089	http://vivo.scripps.edu/individual/endnote316400
http://vivo.scripps.edu/individual/endnote176259	AcademicArticle	LPA3 receptor mediates chemotaxis of immature murine dendritic cells to unsaturated lysophosphatidic acid (LPA)	2007	10.1189/jlb.0407221	17709403	http://vivo.scripps.edu/individual/endnote181358
http://vivo.scripps.edu/individual/endnote273513	AcademicArticle	Loss of spinal substance P pain transmission under the condition of LPA1 receptor-mediated neuropathic pain	2006	10.1186/1744-8069-2-25	16914035	http://vivo.scripps.edu/individual/endnote297453
http://vivo.scripps.edu/individual/endnote65028	AcademicArticle	GPR92 as a new G12/13 and Gq-coupled lysophosphatidic acid receptor that increases cAMP: LPA5	2006	10.1074/jbc.M603670200	16774927	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote76664	AcademicArticle	High-density lipoproteins and their constituent, sphingosine-1-phosphate, directly protect the heart against ischemia/reperfusion injury in vivo via the S1P3 lysophospholipid receptor	2006	10.1161/circulationaha.105.607135	16982942	http://vivo.scripps.edu/individual/endnote329477
http://vivo.scripps.edu/individual/endnote288819	AcademicArticle	Aneuploidy in the normal and diseased brain	2006	10.1007/s00018-006-6169-5	16952055	http://vivo.scripps.edu/individual/endnote360474
http://vivo.scripps.edu/individual/endnote113802	AcademicArticle	Lysophospholipid receptors as potential drug targets in tissue transplantation and autoimmune diseases	2006	10.2174/138161206775193109	16454733	http://vivo.scripps.edu/individual/endnote248220
http://vivo.scripps.edu/individual/endnote395277	AcademicArticle	A new method of embryonic culture for assessing global changes in brain organization	2006	10.1016/j.jneumeth.2006.05.025	16824613	http://vivo.scripps.edu/individual/endnote37374
http://vivo.scripps.edu/individual/endnote91798	AcademicArticle	Emerging medicinal roles for lysophospholipid signaling	2006	10.1016/j.molmed.2005.12.001	16406843	http://vivo.scripps.edu/individual/endnote358888
http://vivo.scripps.edu/individual/endnote117720	AcademicArticle	Ser18 and 23 phosphorylation is required for p53-dependent apoptosis and tumor suppression	2006	10.1038/sj.emboj.7601167	16757976	http://vivo.scripps.edu/individual/endnote321241
http://vivo.scripps.edu/individual/endnote104755	AcademicArticle	New developments in the biological functions of lysophospholipids	2006	10.1007/s00018-006-6155-y	16988788	http://vivo.scripps.edu/individual/endnote360474
http://vivo.scripps.edu/individual/e2n103154	AcademicArticle	The end of a Chilean Institute	2005		15879193	http://vivo.scripps.edu/individual/endnote276633
http://vivo.scripps.edu/individual/endnote202527	AcademicArticle	The S1P2 receptor negatively regulates platelet-derived growth factor-induced motility and proliferation	2005	10.1128/mcb.25.10.4237-4249.2005	15870293	http://vivo.scripps.edu/individual/endnote52493
http://vivo.scripps.edu/individual/endnote56940	AcademicArticle	Lpa(3)-mediated lysophosphatidic acid signalling in embryo implantation and spacing	2005	10.1038/nature03505	15875025	http://vivo.scripps.edu/individual/endnote351395
http://vivo.scripps.edu/individual/endnote171818	AcademicArticle	Lysophospholipids in the nervous system	2005	10.1016/j.prostaglandins.2004.09.009	16099390	http://vivo.scripps.edu/individual/endnote122744
http://vivo.scripps.edu/individual/endnote330000	AcademicArticle	Aneuploid neurons are functionally active and integrated into brain circuitry	2005	10.1073/pnas.0408171102	15837924	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote266573	AcademicArticle	Lysophosphatidic acid inhibits adipocyte differentiation via lysophosphatidic acid 1 receptor-dependent down-regulation of peroxisome proliferator-activated receptor gamma 2	2005	10.1074/jbc.M412585200	15710620	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote79676	AcademicArticle	Signaling mechanisms responsible for lysophosphatidic acid-induced urokinase plasminogen activator expression in ovarian cancer cells	2005	10.1074/jbc.M412152200	15653692	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote65324	AcademicArticle	Immunomodulator FTY720 induces eNOS-dependent arterial vasodilatation via the lysophospholipid receptor S1P3	2005	10.1161/01.res.0000164321.91452.00	15802614	http://vivo.scripps.edu/individual/endnote92163
http://vivo.scripps.edu/individual/endnote218531	AcademicArticle	Constitutional aneuploidy in the normal human brain	2005	10.1523/jneurosci.4560-04.2005	15745943	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/e2n181062	AcademicArticle	Lysophosphatidic acid and autotaxin stimulate cell motility of neoplastic and non-neoplastic cells through LPA1	2004	10.1074/jbc.M313927200	14744855	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote161288	AcademicArticle	Growth factor pre-treatment differentially regulates phosphoinositide turnover downstream of lysophospholipid receptor and metabotropic glutamate receptors in cultured rat cerebrocortical astrocytes	2004	10.1016/j.ijdeveneu.2004.03.005	15140466	http://vivo.scripps.edu/individual/endnote101037
http://vivo.scripps.edu/individual/endnote345865	AcademicArticle	The sphingosine-1-phosphate (S1P) lysophospholipid receptor S1P3 regulates MAdCAM-1+ endothelial cells in splenic marginal sinus organization	2004	10.1084/jem.20041483	15583019	http://vivo.scripps.edu/individual/endnote111556
http://vivo.scripps.edu/individual/endnote322059	AcademicArticle	Genetics and cell biology of lysophosphatidic acid receptor-mediated signaling during cortical neurogenesis	2004	10.1002/jcb.20061	15258921	http://vivo.scripps.edu/individual/endnote213837
http://vivo.scripps.edu/individual/endnote181605	AcademicArticle	Lysophospholipid receptors: signaling and biology	2004	10.1146/annurev.biochem.73.011303.073731	15189145	http://vivo.scripps.edu/individual/endnote150781
http://vivo.scripps.edu/individual/endnote385827	AcademicArticle	Sphingosine 1-phosphate receptor agonists attenuate relapsing-remitting experimental autoimmune encephalitis in SJL mice	2004	10.1016/j.jneuroim.2004.04.015	15265669	http://vivo.scripps.edu/individual/endnote343282
http://vivo.scripps.edu/individual/endnote152523	AcademicArticle	HDL induces no-dependent vasorelaxation via the lysophospholipid receptor S1P(3)	2004	10.1172/jci200418004	14966566	http://vivo.scripps.edu/individual/endnote119306
http://vivo.scripps.edu/individual/endnote5375	AcademicArticle	Cell surface receptors in lysophospholipid signaling	2004	10.1016/j.semcdb.2004.05.005	15271291	http://vivo.scripps.edu/individual/endnote201819
http://vivo.scripps.edu/individual/endnote321480	AcademicArticle	Sphingosine 1-phosphate (S1P) receptor subtypes S1P1 and S1P3, respectively, regulate lymphocyte recirculation and heart rate	2004	10.1074/jbc.M311743200	14732717	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote295068	AcademicArticle	Initiation of neuropathic pain requires lysophosphatidic acid receptor signaling	2004	10.1038/nm1060	15195086	http://vivo.scripps.edu/individual/endnote267122
http://vivo.scripps.edu/individual/endnote243809	AcademicArticle	High-density lipoprotein stimulates myocardial perfusion in vivo	2004	10.1161/01.cir.0000147827.43912.ae	15545521	http://vivo.scripps.edu/individual/endnote329477
http://vivo.scripps.edu/individual/endnote113721	AcademicArticle	Lysophospholipid G protein-coupled receptors	2004	10.1074/jbc.R400013200	15023998	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote299674	AcademicArticle	Failed clearance of aneuploid embryonic neural progenitor cells leads to excess aneuploidy in the Atm-deficient but not the Trp53-deficient adult cerebral cortex	2004	10.1523/jneurosci.2263-04.2004	15371510	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote394126	AcademicArticle	Mice lacking methyl-CpG binding protein 1 have deficits in adult neurogenesis and hippocampal function	2003	10.1073/pnas.1131928100	12748381	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote173730	AcademicArticle	Chromosome segregation defects contribute to aneuploidy in normal neural progenitor cells	2003		14614104	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote115328	AcademicArticle	Alteration of gene expression by chromosome loss in the postnatal mouse brain	2003		12843262	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote331273	AcademicArticle	Sphingosine kinase type 2 is a putative BH3-only protein that induces apoptosis	2003	10.1074/jbc.M304455200	12835323	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote52991	AcademicArticle	Non-proliferative effects of lysophosphatidic acid enhance cortical growth and folding	2003	10.1038/nn1157	14625558	http://vivo.scripps.edu/individual/endnote86814
http://vivo.scripps.edu/individual/endnote7691	AcademicArticle	Sphingosine kinase type 1 induces G12/13-mediated stress fiber formation, yet promotes growth and survival independent of G protein-coupled receptors	2003	10.1074/jbc.M308749200	12963721	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote288686	AcademicArticle	S1p(3)-mediated akt activation and crosstalk with platelet-derived growth factor receptor (PDGFR)	2003	10.1096/fj.03-0302fje	12631574	http://vivo.scripps.edu/individual/endnote8827
http://vivo.scripps.edu/individual/endnote288686	AcademicArticle	S1p(3)-mediated akt activation and crosstalk with platelet-derived growth factor receptor (PDGFR)	2003	10.1096/fj.03-0302fje	14657000	http://vivo.scripps.edu/individual/endnote8827
http://vivo.scripps.edu/individual/endnote310090	AcademicArticle	Pharmacological characterization of lysophospholipid receptor signal transduction pathways in rat cerebrocortical astrocytes	2003	10.1016/s0006-8993(03)03527-3	14568343	http://vivo.scripps.edu/individual/endnote304665
http://vivo.scripps.edu/individual/e2n29662	AcademicArticle	International Union of Pharmacology. XXXIV. Lysophospholipid receptor nomenclature	2002	10.1124/pr.54.2.265	12037142	http://vivo.scripps.edu/individual/endnote324056
http://vivo.scripps.edu/individual/endnote341862	AcademicArticle	Lysophosphatidic acid influences the morphology and motility of young, postmitotic cortical neurons	2002	10.1006/mcne.2002.1123	12093159	http://vivo.scripps.edu/individual/endnote102980
http://vivo.scripps.edu/individual/endnote260971	AcademicArticle	Dual regulation of actin rearrangement through lysophosphatidic acid receptor in neuroblast cell lines: Actin depolymerization by Ca2+-alpha-actinin and polymerization by rho	2002	10.1091/mbc.01-09-0465	12181339	http://vivo.scripps.edu/individual/endnote312044
http://vivo.scripps.edu/individual/endnote324348	AcademicArticle	Neurobiology of lysophosphatidic acid signaling	2002	10.1177/1073858402238513	12467376	http://vivo.scripps.edu/individual/endnote210928
http://vivo.scripps.edu/individual/endnote363694	AcademicArticle	In vivo roles of lysophospholipid receptors revealed by gene targeting studies in mice	2002	10.1016/s1388-1981(02)00172-5	12069829	http://vivo.scripps.edu/individual/endnote161747
http://vivo.scripps.edu/individual/endnote129750	AcademicArticle	Characterization of lpa(2) (edg4) and lpa(1)/lpa(2) (edg2/edg4) lysophosphatidic acid receptor knockout mice: Signaling deficits without obvious phenotypic abnormality attributable to lpa(2)	2002	10.1128/mcb.22.19.6921-6929.2002	12215548	http://vivo.scripps.edu/individual/endnote52493
http://vivo.scripps.edu/individual/endnote133217	AcademicArticle	Lysophosphatidic acid in neural signaling	2002	10.1097/01.wnr.0000044217.09266.2d	12488791	http://vivo.scripps.edu/individual/endnote246350
http://vivo.scripps.edu/individual/endnote190926	AcademicArticle	Anandamide-induced neuroblastoma cell rounding via the CB1 cannabinoid receptors	2002	10.1097/00001756-200204160-00011	11973452	http://vivo.scripps.edu/individual/endnote246350
http://vivo.scripps.edu/individual/endnote179360	AcademicArticle	Marked perinatal lethality and cellular signaling deficits in mice null for the two sphingosine 1-phosphate (S1p) receptors, S1p(2)/LP(B2)/EDG-5 and S1P(3)/LP(B3)/EDG-3	2002	10.1074/jbc.M200137200	12006579	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote19793	AcademicArticle	Tandem genomic arrangement of a G protein (Gna15) and G protein-coupled receptor (s1p(4)/lp(c1)/edg6) gene	2002	10.1016/s0014-5793(02)03409-9	12401211	http://vivo.scripps.edu/individual/endnote241389
http://vivo.scripps.edu/individual/endnote375943	AcademicArticle	Lysophosphatidic acid as a novel cell survival/apoptotic factor	2002	10.1016/s1388-1981(02)00330-x	12531543	http://vivo.scripps.edu/individual/endnote161747
http://vivo.scripps.edu/individual/endnote89154	AcademicArticle	Embryonic brain expression analysis of lysophospholipid receptor genes suggests roles for s1p(1) in neurogenesis and s1p(1-3) in angiogenesis	2002	10.1016/s0014-5793(02)03404-x	12401212	http://vivo.scripps.edu/individual/endnote241389
http://vivo.scripps.edu/individual/endnote14472	AcademicArticle	Chromosomal variation in neurons of the developing and adult mammalian nervous system	2001	10.1073/pnas.231487398	11698687	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote148699	AcademicArticle	Selected comparison of immune and nervous system development	2001	10.1016/s0065-2776(01)77020-4	11293119	http://vivo.scripps.edu/individual/endnote46056
http://vivo.scripps.edu/individual/endnote398692	AcademicArticle	The LPA receptors	2001	10.1016/s0090-6980(01)00105-8	11324705	http://vivo.scripps.edu/individual/endnote122744
http://vivo.scripps.edu/individual/endnote222196	AcademicArticle	Expression and function of lysophosphatidic acid receptors in cultured rodent microglial cells	2001	10.1074/jbc.M102691200	11340076	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote37951	AcademicArticle	Selective loss of sphingosine 1-phosphate signaling with no obvious phenotypic abnormality in mice lacking its G protein-coupled receptor, lPB3/EDG-3	2001	10.1074/jbc.M104441200	11443127	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote194972	AcademicArticle	The mouse lP(A3)/Edg7 lysophosphatidic acid receptor gene: Genomic structure, chromosomal localization, and expression pattern	2001	10.1016/s0378-1119(01)00410-3	11313151	http://vivo.scripps.edu/individual/endnote82604
http://vivo.scripps.edu/individual/endnote260021	AcademicArticle	Lysophospholipid receptors	2001	10.1146/annurev.pharmtox.41.1.507	11264467	http://vivo.scripps.edu/individual/endnote260423
http://vivo.scripps.edu/individual/endnote135450	AcademicArticle	Regulation of Schwann cell morphology and adhesion by receptor-mediated lysophosphatidic acid signaling	2001		11549717	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote284099	AcademicArticle	Two novel xenopus homologs of mammalian lPA1/EDG-2 function as lysophosphatidic acid receptors in xenopus oocytes and mammalian cells	2001	10.1074/jbc.M011588200	11278944	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/e2n26431	AcademicArticle	Cell death, DNA breaks and possible rearrangements: an alternative view	2000	10.1016/s0166-2236(00)01612-x	10941186	http://vivo.scripps.edu/individual/endnote390012
http://vivo.scripps.edu/individual/e2n358295	AcademicArticle	Neurobiology of receptor-mediated lysophospholipid signaling - From the first lysophospholipid receptor to roles in nervous system function and development	2000		10818447	http://vivo.scripps.edu/individual/endnote290113
http://vivo.scripps.edu/individual/endnote229184	AcademicArticle	Lysophosphatidic acid (LPA) is a novel extracellular regulator of cortical neuroblast morphology	2000	10.1006/dbio.2000.9930	11087622	http://vivo.scripps.edu/individual/endnote334872
http://vivo.scripps.edu/individual/endnote303266	AcademicArticle	Requirement for the lPA1 lysophosphatidic acid receptor gene in normal suckling behavior	2000	10.1073/pnas.97.24.13384	11087877	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote4502	AcademicArticle	Glypican-4 is an FGF2-binding heparan sulfate proteoglycan expressed in neural precursor cells	2000	10.1002/1097-0177(2000)9999:9999<::aid-dvdy1059>3.3.co;2-r	11066092	http://vivo.scripps.edu/individual/endnote369844
http://vivo.scripps.edu/individual/endnote71304	AcademicArticle	Functional comparisons of the lysophosphatidic acid receptors, LP(A1)/VZG-1/EDG-2, LP(A2)/EDG-4, and LP(A3)/EDG-7 in neuronal cell lines using a retrovirus expression system	2000		11040035	http://vivo.scripps.edu/individual/endnote153183
http://vivo.scripps.edu/individual/endnote385622	AcademicArticle	Decreased apoptosis in proliferative and postmitotic regions of the Caspase 3-deficient embryonic central nervous system	2000		10861532	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote275139	AcademicArticle	Lysophosphatidic acid receptors	2000		11093753	http://vivo.scripps.edu/individual/endnote153183
http://vivo.scripps.edu/individual/endnote301400	AcademicArticle	Genomic characterization of the lysophosphatidic acid receptor gene, lPA2/Edg4, and identification of a frameshift mutation in a previously characterized cDNA	2000	10.1006/geno.2000.6122	10729222	http://vivo.scripps.edu/individual/endnote169552
http://vivo.scripps.edu/individual/endnote232423	AcademicArticle	Defective embryonic neurogenesis in Ku-deficient but not DNA-dependent protein kinase catalytic subunit-deficient mice	2000	10.1073/pnas.97.6.2668	10716994	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/e2n331377	AcademicArticle	First cloned and identified lysophospholipid (LP) receptor gene, VZG-1: Implications for related receptors and the nervous system	1999		10667353	http://vivo.scripps.edu/individual/endnote294136
http://vivo.scripps.edu/individual/e2n252805	AcademicArticle	A growing family of receptor genes for lysophosphatidic acid (LPA) and other lysophospholipids (LPs)	1999	10.1007/bf02738068	10356643	http://vivo.scripps.edu/individual/endnote121972
http://vivo.scripps.edu/individual/endnote132137	AcademicArticle	Comparative analysis of three murine g-protein coupled receptors activated by sphingosine-1-phosphate	1999	10.1016/s0378-1119(98)00589-7	9931453	http://vivo.scripps.edu/individual/endnote82604
http://vivo.scripps.edu/individual/endnote283698	AcademicArticle	Developmental neurobiology: Alternative ends for a familiar story?	1999	10.1016/s0960-9822(99)80156-0	10209111	http://vivo.scripps.edu/individual/endnote91797
http://vivo.scripps.edu/individual/endnote356746	AcademicArticle	Schwann cell survival mediated by the signaling phospholipid lysophosphatidic acid	1999	10.1073/pnas.96.9.5233	10220449	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote284016	AcademicArticle	Rearranging views on neurogenesis: Neuronal death in the absence of DNA end-joining proteins	1999	10.1016/s0896-6273(00)80671-6	10027282	http://vivo.scripps.edu/individual/endnote84097
http://vivo.scripps.edu/individual/endnote133040	AcademicArticle	Expanded polyglutamine domain proteins bind neurofilament and alter the neurofilament network	1999	10.1006/exnr.1998.6991	10072295	http://vivo.scripps.edu/individual/endnote383683
http://vivo.scripps.edu/individual/endnote79765	AcademicArticle	Lysophospholipid receptors: Implications for neural signaling	1999		10512488	http://vivo.scripps.edu/individual/endnote352020
http://vivo.scripps.edu/individual/endnote340590	AcademicArticle	Novel dendritic kinesin sorting identified by different process targeting of two related kinesins: KlF21A and KlF21B.	1999	10.1083/jcb.145.3.469	10225949	http://vivo.scripps.edu/individual/endnote322298
http://vivo.scripps.edu/individual/endnote333776	AcademicArticle	Lysophosphatidic acid stimulates neurotransmitter-like conductance changes that precede GABA and L-glutamate in early, presumptive cortical neuroblasts	1999		9952414	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote59150	AcademicArticle	Developmental neurobiology: A genetic cheshire cat?	1999	10.1016/s0960-9822(99)80415-1	10508574	http://vivo.scripps.edu/individual/endnote91797
http://vivo.scripps.edu/individual/endnote308151	AcademicArticle	Onset of apoptotic DNA fragmentation can precede cell elimination by days in the small intestinal villus	1998	10.1038/sj.cdd.4400403	10200526	http://vivo.scripps.edu/individual/endnote52449
http://vivo.scripps.edu/individual/endnote398874	AcademicArticle	Programmed cell death is a universal feature of embryonic and postnatal neuroproliferative regions throughout the central nervous system	1998	10.1002/(sici)1096-9861(19980622)396:1<39::aid-cne4>3.0.co;2-j	9623886	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote97710	AcademicArticle	A single receptor encoded by vzg-1/lpA1/edg-2 couples to G proteins and mediates multiple cellular responses to lysophosphatidic acid	1998	10.1073/pnas.95.11.6151	9600933	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote284589	AcademicArticle	Lysophosphatidic acid receptor gene vzg-1/lpA1/edg-2 is expressed by mature oligodendrocytes during myelination in the postnatal murine brain	1998	10.1002/(sici)1096-9861(19980907)398:4<587::aid-cne10>3.0.co;2-5	9717712	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote65921	AcademicArticle	Complete cDNA sequence, genomic structure, and chromosomal localization of the LPA receptor gene, vzg-1/lpA1/Gpcr26.	1998	10.1006/geno.1998.5400	9721207	http://vivo.scripps.edu/individual/endnote169552
http://vivo.scripps.edu/individual/endnote16765	AcademicArticle	Identification of a novel protein kinase A anchoring protein that binds both type l and type ll regulatory subunits	1997		9065479	http://vivo.scripps.edu/individual/endnote308813
http://vivo.scripps.edu/individual/endnote286911	AcademicArticle	D-AKAP2, a novel protein kinase A anchoring protein with a putative RGS domain	1997	10.1073/pnas.94.21.11184	9326583	http://vivo.scripps.edu/individual/endnote71945
http://vivo.scripps.edu/individual/endnote397270	AcademicArticle	Png-1, a nervous system-specific zinc finger gene, identifies regions containing postmitotic neurons during mammalian embryonic development	1997	10.1002/(sici)1096-9861(19970505)381:2<130::aid-cne2>3.0.co;2-4	9130664	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/endnote179615	AcademicArticle	E2A deficiency leads to abnormalities in alphabeta T-cell development and to rapid development of T-cell lymphomas	1997	10.1128/MCB.17.8.4782	9234734	http://vivo.scripps.edu/individual/endnote52493
http://vivo.scripps.edu/individual/endnote61465	AcademicArticle	Apoptotic DNA fragmentation is detected by a semi-quantitative ligation-mediated PCR of blunt DNA ends	1997	10.1038/sj.cdd.4400207	16465212	http://vivo.scripps.edu/individual/endnote52449
http://vivo.scripps.edu/individual/endnote185091	AcademicArticle	A novel fibroblast growth factor gene expressed in the developing nervous system is a downstream target of the chimeric homeodomain oncoprotein E2A-Pbx1	1997		9310317	http://vivo.scripps.edu/individual/endnote102715
http://vivo.scripps.edu/individual/endnote253588	AcademicArticle	Maternally derived immunoglobulin light chain is present in the fetal mammalian CNS	1997		9096149	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/endnote153587	AcademicArticle	Ventricular zone gene-1 (vzg-1) encodes a lysophosphatidic acid receptor expressed in neurogenic regions of the developing cerebral cortex	1996	10.1083/jcb.135.4.1071	8922387	http://vivo.scripps.edu/individual/endnote322298
http://vivo.scripps.edu/individual/endnote79839	AcademicArticle	Clonal cell lines produced by infection of neocortical neuroblasts using multiple oncogenes transduced by retroviruses	1996	10.1006/mcne.1996.0023	8793865	http://vivo.scripps.edu/individual/endnote102980
http://vivo.scripps.edu/individual/endnote336120	AcademicArticle	Widespread programmed cell death in proliferative and postmitotic regions of the fetal cerebral cortex	1996		8620843	http://vivo.scripps.edu/individual/endnote102715
http://vivo.scripps.edu/individual/e2n315939	AcademicArticle	A protocol using retrovirally introduced multiple oncogenes for producing neuron-like cell lines from the murine central nervous system	1993	10.1006/ncmn.1993.1056		http://vivo.scripps.edu/individual/e2n367606
http://vivo.scripps.edu/individual/e2n47263	AcademicArticle	V(D)J recombination and the transgenic brain blues	1992		1581289	http://vivo.scripps.edu/individual/endnote309284
http://vivo.scripps.edu/individual/e2n305055	AcademicArticle	The recombination activating gene-1 (RAG-1) transcript is present in the murine central nervous system	1991	10.1016/0092-8674(91)90220-s	1986864	http://vivo.scripps.edu/individual/endnote126238
http://vivo.scripps.edu/individual/e2n292892	AcademicArticle	Interstitial cells of the adult neocortical white matter are the remnant of the early generated subplate neuron population	1989	10.1002/cne.902820407	2566630	http://vivo.scripps.edu/individual/endnote234312
http://vivo.scripps.edu/individual/e2n144366	AcademicArticle	The earliest-generated neurons of the cat cerebral cortex: characterization by MAP2 and neurotransmitter immunohistochemistry during fetal life	1989		2566660	http://vivo.scripps.edu/individual/endnote239142
http://vivo.scripps.edu/individual/e2n28981	AcademicArticle	A fibronectin-like molecule is present in the developing cat cerebral cortex and is correlated with subplate neurons	1988	10.1083/jcb.106.3.857	3346327	http://vivo.scripps.edu/individual/endnote322298
http://vivo.scripps.edu/individual/e2n296572	AcademicArticle	Redistribution of synaptic vesicle antigens is correlated with the disappearance of a transient synaptic zone in the developing cerebral cortex	1988		3152420	http://vivo.scripps.edu/individual/endnote84097
http://vivo.scripps.edu/individual/e2n374710	AcademicArticle	Transient cells of the developing mammalian telencephalon are peptide-immunoreactive neurons	1987	10.1038/325617a0	3543691	http://vivo.scripps.edu/individual/endnote351395