Light-induced fos expression in intrinsically photosensitive retinal ganglion cells in melanopsin knockout (opn4) mice

Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The l...

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Bibliographic Details
Published inPloS one Vol. 4; no. 3; p. e4984
Main Authors Pickard, Gary E, Baver, Scott B, Ogilvie, Malcolm D, Sollars, Patricia J
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 25.03.2009
Public Library of Science (PLoS)
Subjects
Animals
Bipolar cells
c-Fos protein
Dendrites
Depolarization
Evoked response (psychophysiology)
Eye (anatomy)
Fos protein
Galactosidase
Ganglion cysts
Gene expression
Gene Expression Regulation - radiation effects
LacZ gene
Light
Light Signal Transduction
Melanopsin
Mice
Mice, Knockout
Neuroscience
Neuroscience/Sensory Systems
Neurosciences
Photoreception
Photoreceptors
Photosensitivity
Physiology/Sensory Systems
Proto-Oncogene Proteins c-fos - genetics
Retina
Retina - physiology
Retinal Bipolar Cells - physiology
Retinal ganglion cells
Retinal Ganglion Cells - physiology
Rod Opsins - deficiency
Saline solutions
Visual perception
Visual signals
β-Galactosidase
United States > US
Colorado
Online AccessGet full text

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Abstract Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The light-evoked increase in firing of classical ganglion cells is determined by synaptic input from ON-bipolar cells in the proximal sublamina of the inner plexiform layer. OFF-bipolar cells synapse with ganglion cell dendrites in the distal sublamina of the inner plexiform layer. Of the several types of ipRGC that have been described, M1 ipRGCs send dendrites exclusively into the OFF region of the inner plexiform layer where they stratify near the border of the inner nuclear layer. We tested whether M1 ipRGCs with dendrites restricted to the OFF sublamina of the inner plexiform layer receive synaptic ON-bipolar input by examining light-induced gene expression in vivo using melanopsin knockout mice. Mice in which both copies of the melanopsin gene (opn4) have been replaced with the tau-lacZ gene (homozygous tau-lacZ(+/+) knockin mice) are melanopsin knockouts (opn4(-/-)) but M1 ipRGCs are specifically identified by their expression of beta-galactosidase. Approximately 60% of M1 ipRGCs in Opn4(-/-) mice exposed to 3 hrs of light expressed c-Fos; no beta-galactosidase-positive RGCs expressed c-Fos in the dark. Intraocular application of L-AP4, a compound which blocks transmission of visual signals between photoreceptors and ON-bipolar cells significantly reduced light-evoked c-Fos expression in M1 ipRGCs compared to saline injected eyes (66% saline vs 27% L-AP4). The results are the first description of a light-evoked response in an ipRGC lacking melanopsin and provide in vivo confirmation of previous in vitro observations illustrating an unusual circuit in the retina in which ganglion cells sending dendrites to the OFF sublamina of the inner plexiform layer receive excitatory synaptic input from ON-bipolar cells.
AbstractList Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The light-evoked increase in firing of classical ganglion cells is determined by synaptic input from ON-bipolar cells in the proximal sublamina of the inner plexiform layer. OFF-bipolar cells synapse with ganglion cell dendrites in the distal sublamina of the inner plexiform layer. Of the several types of ipRGC that have been described, M1 ipRGCs send dendrites exclusively into the OFF region of the inner plexiform layer where they stratify near the border of the inner nuclear layer. We tested whether M1 ipRGCs with dendrites restricted to the OFF sublamina of the inner plexiform layer receive synaptic ON-bipolar input by examining light-induced gene expression in vivo using melanopsin knockout mice. Mice in which both copies of the melanopsin gene ( opn4 ) have been replaced with the tau-lacZ gene (homozygous tau-lacZ +/+ knockin mice) are melanopsin knockouts ( opn4 −/− ) but M1 ipRGCs are specifically identified by their expression of β-galactosidase. Approximately 60% of M1 ipRGCs in Opn4 −/− mice exposed to 3 hrs of light expressed c-Fos; no β-galactosidase-positive RGCs expressed c-Fos in the dark. Intraocular application of L-AP4, a compound which blocks transmission of visual signals between photoreceptors and ON-bipolar cells significantly reduced light-evoked c-Fos expression in M1 ipRGCs compared to saline injected eyes (66% saline vs 27% L-AP4). The results are the first description of a light-evoked response in an ipRGC lacking melanopsin and provide in vivo confirmation of previous in vitro observations illustrating an unusual circuit in the retina in which ganglion cells sending dendrites to the OFF sublamina of the inner plexiform layer receive excitatory synaptic input from ON-bipolar cells.
Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The light-evoked increase in firing of classical ganglion cells is determined by synaptic input from ON-bipolar cells in the proximal sublamina of the inner plexiform layer. OFF-bipolar cells synapse with ganglion cell dendrites in the distal sublamina of the inner plexiform layer. Of the several types of ipRGC that have been described, M1 ipRGCs send dendrites exclusively into the OFF region of the inner plexiform layer where they stratify near the border of the inner nuclear layer. We tested whether M1 ipRGCs with dendrites restricted to the OFF sublamina of the inner plexiform layer receive synaptic ON-bipolar input by examining light-induced gene expression in vivo using melanopsin knockout mice. Mice in which both copies of the melanopsin gene (opn4) have been replaced with the tau-lacZ gene (homozygous tau-lacZ.sup.+/+ knockin mice) are melanopsin knockouts (opn4.sup.-/-) but M1 ipRGCs are specifically identified by their expression of [beta]-galactosidase. Approximately 60% of M1 ipRGCs in Opn4.sup.-/- mice exposed to 3 hrs of light expressed c-Fos; no [beta]-galactosidase-positive RGCs expressed c-Fos in the dark. Intraocular application of L-AP4, a compound which blocks transmission of visual signals between photoreceptors and ON-bipolar cells significantly reduced light-evoked c-Fos expression in M1 ipRGCs compared to saline injected eyes (66% saline vs 27% L-AP4). The results are the first description of a light-evoked response in an ipRGC lacking melanopsin and provide in vivo confirmation of previous in vitro observations illustrating an unusual circuit in the retina in which ganglion cells sending dendrites to the OFF sublamina of the inner plexiform layer receive excitatory synaptic input from ON-bipolar cells.
Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The light-evoked increase in firing of classical ganglion cells is determined by synaptic input from ON-bipolar cells in the proximal sublamina of the inner plexiform layer. OFF-bipolar cells synapse with ganglion cell dendrites in the distal sublamina of the inner plexiform layer. Of the several types of ipRGC that have been described, M1 ipRGCs send dendrites exclusively into the OFF region of the inner plexiform layer where they stratify near the border of the inner nuclear layer. We tested whether M1 ipRGCs with dendrites restricted to the OFF sublamina of the inner plexiform layer receive synaptic ON-bipolar input by examining light-induced gene expression in vivo using melanopsin knockout mice. Mice in which both copies of the melanopsin gene (opn4) have been replaced with the tau-lacZ gene (homozygous tau-lacZ(+/+) knockin mice) are melanopsin knockouts (opn4(-/-)) but M1 ipRGCs are specifically identified by their expression of beta-galactosidase. Approximately 60% of M1 ipRGCs in Opn4(-/-) mice exposed to 3 hrs of light expressed c-Fos; no beta-galactosidase-positive RGCs expressed c-Fos in the dark. Intraocular application of L-AP4, a compound which blocks transmission of visual signals between photoreceptors and ON-bipolar cells significantly reduced light-evoked c-Fos expression in M1 ipRGCs compared to saline injected eyes (66% saline vs 27% L-AP4). The results are the first description of a light-evoked response in an ipRGC lacking melanopsin and provide in vivo confirmation of previous in vitro observations illustrating an unusual circuit in the retina in which ganglion cells sending dendrites to the OFF sublamina of the inner plexiform layer receive excitatory synaptic input from ON-bipolar cells.
Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses to light, yet they will continue to depolarize in response to light when all synaptic input from rod and cone photoreceptors is removed. The light-evoked increase in firing of classical ganglion cells is determined by synaptic input from ON-bipolar cells in the proximal sublamina of the inner plexiform layer. OFF-bipolar cells synapse with ganglion cell dendrites in the distal sublamina of the inner plexiform layer. Of the several types of ipRGC that have been described, M1 ipRGCs send dendrites exclusively into the OFF region of the inner plexiform layer where they stratify near the border of the inner nuclear layer. We tested whether M1 ipRGCs with dendrites restricted to the OFF sublamina of the inner plexiform layer receive synaptic ON-bipolar input by examining light-induced gene expression in vivo using melanopsin knockout mice. Mice in which both copies of the melanopsin gene (opn4) have been replaced with the tau-lacZ gene (homozygous tau-lacZ+/+ knockin mice) are melanopsin knockouts (opn4−/−) but M1 ipRGCs are specifically identified by their expression of β-galactosidase. Approximately 60% of M1 ipRGCs in Opn4−/− mice exposed to 3 hrs of light expressed c-Fos; no β-galactosidase-positive RGCs expressed c-Fos in the dark. Intraocular application of L-AP4, a compound which blocks transmission of visual signals between photoreceptors and ON-bipolar cells significantly reduced light-evoked c-Fos expression in M1 ipRGCs compared to saline injected eyes (66% saline vs 27% L-AP4). The results are the first description of a light-evoked response in an ipRGC lacking melanopsin and provide in vivo confirmation of previous in vitro observations illustrating an unusual circuit in the retina in which ganglion cells sending dendrites to the OFF sublamina of the inner plexiform layer receive excitatory synaptic input from ON-bipolar cells.
Audience Academic
Author Sollars, Patricia J
Ogilvie, Malcolm D
Baver, Scott B
Pickard, Gary E
AuthorAffiliation Vrije Universiteit Amsterdam, Netherlands
Division of Neuroscience, Department of Biomedical Sciences, Colorado State University, Fort Collins, Colorado, United States of America
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/19319185$$D View this record in MEDLINE/PubMed
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Conceived and designed the experiments: GEP SBB PJS. Performed the experiments: SBB. Analyzed the data: GEP SBB MDO PJS. Wrote the paper: GEP SBB PJS.
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SSID ssj0053866
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Snippet Retinal ganglion cells that express the photopigment melanopsin are intrinsically photosensitive (ipRGCs) and exhibit robust synaptically driven ON-responses...
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Aggregation Database
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StartPage e4984
SubjectTerms Animals
Bipolar cells
c-Fos protein
Dendrites
Depolarization
Evoked response (psychophysiology)
Eye (anatomy)
Fos protein
Galactosidase
Ganglion cysts
Gene expression
Gene Expression Regulation - radiation effects
LacZ gene
Light
Light Signal Transduction
Melanopsin
Mice
Mice, Knockout
Neuroscience
Neuroscience/Sensory Systems
Neurosciences
Photoreception
Photoreceptors
Photosensitivity
Physiology/Sensory Systems
Proto-Oncogene Proteins c-fos - genetics
Retina
Retina - physiology
Retinal Bipolar Cells - physiology
Retinal ganglion cells
Retinal Ganglion Cells - physiology
Rod Opsins - deficiency
Saline solutions
Visual perception
Visual signals
β-Galactosidase
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Title Light-induced fos expression in intrinsically photosensitive retinal ganglion cells in melanopsin knockout (opn4) mice
URI https://www.ncbi.nlm.nih.gov/pubmed/19319185
https://www.proquest.com/docview/1290423519
https://search.proquest.com/docview/67065863
https://pubmed.ncbi.nlm.nih.gov/PMC2655650
https://doaj.org/article/39f4a50d92484d3bb53031d4388d85d6
http://dx.doi.org/10.1371/journal.pone.0004984
Volume 4
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