%0 Journal Article
%T Lysophospholipid receptors LPA1¨C3 are not required for the inhibitory effects of LPA on mouse retinal growth cones
%A Eric Birgbauer
%A Jerold Chun
%J Eye and Brain
%D 2010
%I 
%R http://dx.doi.org/10.2147/EB.S7666
%X ophospholipid receptors LPA1¨C3 are not required for the inhibitory effects of LPA on mouse retinal growth cones Original Research (6351) Total Article Views Authors: Eric Birgbauer, Jerold Chun Published Date February 2010 Volume 2010:2 Pages 1 - 13 DOI: http://dx.doi.org/10.2147/EB.S7666 Eric Birgbauer, Jerold Chun Department of Molecular Biology, Helen L Dorris Institute for Neurological and Psychiatric Disorders, The Scripps Research Institute, La Jolla, CA, USA Abstract: One of the major requirements in the development of the visual system is axonal guidance of retinal ganglion cells toward correct targets in the brain. A novel class of extracellular lipid signaling molecules, lysophospholipids, may serve as potential axon guidance cues. They signal through cognate G protein-coupled receptors, at least some of which are expressed in the visual system. Here we show that in the mouse visual system, a lysophospholipid known as lysophosphatidic acid (LPA) is inhibitory to retinal neurites in vitro when delivered extracellularly, causing growth cone collapse and neurite retraction. This inhibitory effect of LPA is both active in the nanomolar range and specific compared to the related lysophospholipid, sphingosine 1-phosphate (S1P). Knockout mice lacking three of the five known LPA receptors, LPA1¨C3, continue to display retinal growth cone collapse and neurite retraction in response to LPA, demonstrating that these three receptors are not required for these inhibitory effects and indicating the existence of one or more functional LPA receptors expressed on mouse retinal neurites that can mediate neurite retraction.
%K retinal ganglion cells
%K lysophosphatidic acid
%K axon guidance
%U https://www.dovepress.com/lysophospholipid-receptors-lpa1ndash3-are-not-required-for-the-inhibit-peer-reviewed-article-EB