RBFOX3/NeuN is dispensable for visual function

RBFOX3/NeuN is a neuronal splicing regulator involved in neural circuitry balance, as well as neurogenesis and synaptogenesis. Rbfox3 is expressed in neurons; however, in the retina, expression is restricted to cells in the ganglion cell layer and some cells of the inner nuclear layer. Rbfox3 is exp...

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Veröffentlicht in:	PloS one 2018-02, Vol.13 (2), p.e0192355-e0192355
Hauptverfasser:	Lin, Yi-Sian, Kuo, Kuan-Ting, Chen, Shih-Kuo, Huang, Hsien-Sung
Format:	Artikel
Sprache:	eng
Schlagworte:	Amacrine cells Animals Behavior, Animal Biology and Life Sciences Brain Circuits Clonal deletion Gene expression Genetic aspects Health aspects Horizontal cells Immunoglobulins Innervation Life sciences Light Medicine Medicine and Health Sciences Mice Mice, Knockout Nerve Tissue Proteins - genetics Nerve Tissue Proteins - physiology Neural networks Neurogenesis Neurosciences Nuclear Proteins - genetics Nuclear Proteins - physiology Proteins Regulatory genes Research and Analysis Methods Retina Retinal ganglion cells Rodents Social Sciences Splicing Synapses Synaptogenesis Vision Vision, Ocular - physiology Visual discrimination learning Visual perception
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creator	Lin, Yi-Sian Kuo, Kuan-Ting Chen, Shih-Kuo Huang, Hsien-Sung
description	RBFOX3/NeuN is a neuronal splicing regulator involved in neural circuitry balance, as well as neurogenesis and synaptogenesis. Rbfox3 is expressed in neurons; however, in the retina, expression is restricted to cells in the ganglion cell layer and some cells of the inner nuclear layer. Rbfox3 is expressed in a layer-specific manner in the retina, which implies a functional role, however, the role of RBFOX3 in the retina is unknown. Rbfox3 homozygous knockout (Rbfox3-/-) mice exhibit deficits in visual learning; therefore, understanding the role of RBFOX3 in the retina is critical for interpreting behavioral results. We found Rbfox3 expression was developmentally regulated in the retina and specifically expressed in ganglion cells, amacrine cells and horizontal cells of the retina. We demonstrate deletion of Rbfox3 resulted in a reduction in the thickness of the inner plexiform layer of the retina, where synapses are formed. Number of ganglion cells and amacrine cells is normal with loss of Rbfox3. Innervation of retinal ganglion cells into their targeted brain regions is normal in Rbfox3-/- mice. Importantly, Rbfox3-/- mice displayed normal non-image and image forming functions. Taken together, our results suggest RBFOX3 is dispensable for visual function.
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Rbfox3 is expressed in neurons; however, in the retina, expression is restricted to cells in the ganglion cell layer and some cells of the inner nuclear layer. Rbfox3 is expressed in a layer-specific manner in the retina, which implies a functional role, however, the role of RBFOX3 in the retina is unknown. Rbfox3 homozygous knockout (Rbfox3-/-) mice exhibit deficits in visual learning; therefore, understanding the role of RBFOX3 in the retina is critical for interpreting behavioral results. We found Rbfox3 expression was developmentally regulated in the retina and specifically expressed in ganglion cells, amacrine cells and horizontal cells of the retina. We demonstrate deletion of Rbfox3 resulted in a reduction in the thickness of the inner plexiform layer of the retina, where synapses are formed. Number of ganglion cells and amacrine cells is normal with loss of Rbfox3. Innervation of retinal ganglion cells into their targeted brain regions is normal in Rbfox3-/- mice. Importantly, Rbfox3-/- mice displayed normal non-image and image forming functions. 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Rbfox3 is expressed in neurons; however, in the retina, expression is restricted to cells in the ganglion cell layer and some cells of the inner nuclear layer. Rbfox3 is expressed in a layer-specific manner in the retina, which implies a functional role, however, the role of RBFOX3 in the retina is unknown. Rbfox3 homozygous knockout (Rbfox3-/-) mice exhibit deficits in visual learning; therefore, understanding the role of RBFOX3 in the retina is critical for interpreting behavioral results. We found Rbfox3 expression was developmentally regulated in the retina and specifically expressed in ganglion cells, amacrine cells and horizontal cells of the retina. We demonstrate deletion of Rbfox3 resulted in a reduction in the thickness of the inner plexiform layer of the retina, where synapses are formed. Number of ganglion cells and amacrine cells is normal with loss of Rbfox3. Innervation of retinal ganglion cells into their targeted brain regions is normal in Rbfox3-/- mice. Importantly, Rbfox3-/- mice displayed normal non-image and image forming functions. 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Rbfox3 is expressed in neurons; however, in the retina, expression is restricted to cells in the ganglion cell layer and some cells of the inner nuclear layer. Rbfox3 is expressed in a layer-specific manner in the retina, which implies a functional role, however, the role of RBFOX3 in the retina is unknown. Rbfox3 homozygous knockout (Rbfox3-/-) mice exhibit deficits in visual learning; therefore, understanding the role of RBFOX3 in the retina is critical for interpreting behavioral results. We found Rbfox3 expression was developmentally regulated in the retina and specifically expressed in ganglion cells, amacrine cells and horizontal cells of the retina. We demonstrate deletion of Rbfox3 resulted in a reduction in the thickness of the inner plexiform layer of the retina, where synapses are formed. Number of ganglion cells and amacrine cells is normal with loss of Rbfox3. Innervation of retinal ganglion cells into their targeted brain regions is normal in Rbfox3-/- mice. Importantly, Rbfox3-/- mice displayed normal non-image and image forming functions. Taken together, our results suggest RBFOX3 is dispensable for visual function.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>29401485</pmid><doi>10.1371/journal.pone.0192355</doi><tpages>e0192355</tpages><orcidid>https://orcid.org/0000-0003-2657-3635</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Amacrine cells Animals Behavior, Animal Biology and Life Sciences Brain Circuits Clonal deletion Gene expression Genetic aspects Health aspects Horizontal cells Immunoglobulins Innervation Life sciences Light Medicine Medicine and Health Sciences Mice Mice, Knockout Nerve Tissue Proteins - genetics Nerve Tissue Proteins - physiology Neural networks Neurogenesis Neurosciences Nuclear Proteins - genetics Nuclear Proteins - physiology Proteins Regulatory genes Research and Analysis Methods Retina Retinal ganglion cells Rodents Social Sciences Splicing Synapses Synaptogenesis Vision Vision, Ocular - physiology Visual discrimination learning Visual perception
title	RBFOX3/NeuN is dispensable for visual function
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