A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila

Alexander Kiselev; Michael Socolich; Javier Vinós; Robert W. Hardy; Charles S. Zuker; Rama Ranganathan

doi:10.1016/S0896-6273(00)00092-1

A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila

Alexander Kiselev, Michael Socolich, Javier Vinós, Robert W. Hardy, Charles S. Zuker, Rama Ranganathan

Research output: Contribution to journal › Article › peer-review

210 Scopus citations

Abstract

Light-induced photoreceptor apoptosis occurs in many forms of inherited retinal degeneration resulting in blindness in both vertebrates and invertebrates. Though mutations in several photoreceptor signaling proteins have been implicated in triggering this process, the molecular events relating light activation of rhodopsin to photoreceptor death are yet unclear. Here, we uncover a pathway by which activation of rhodopsin in Drosophila mediates apoptosis through a G protein-independent mechanism. This process involves the formation of membrane complexes of phosphorylated, activated rhodopsin and its inhibitory protein arrestin, and subsequent clathrin-dependent endocytosis of these complexes into a cytoplasmic compartment. Together, these data define the proapoptotic molecules in Drosophila photoreceptors and indicate a novel signaling pathway for light-activated rhodopsin molecules in control of photoreceptor viability.

Original language	English (US)
Pages (from-to)	139-152
Number of pages	14
Journal	Neuron
Volume	28
Issue number	1
DOIs	https://doi.org/10.1016/S0896-6273(00)00092-1
State	Published - 2000

ASJC Scopus subject areas

General Neuroscience

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10.1016/S0896-6273(00)00092-1

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title = "A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila",

abstract = "Light-induced photoreceptor apoptosis occurs in many forms of inherited retinal degeneration resulting in blindness in both vertebrates and invertebrates. Though mutations in several photoreceptor signaling proteins have been implicated in triggering this process, the molecular events relating light activation of rhodopsin to photoreceptor death are yet unclear. Here, we uncover a pathway by which activation of rhodopsin in Drosophila mediates apoptosis through a G protein-independent mechanism. This process involves the formation of membrane complexes of phosphorylated, activated rhodopsin and its inhibitory protein arrestin, and subsequent clathrin-dependent endocytosis of these complexes into a cytoplasmic compartment. Together, these data define the proapoptotic molecules in Drosophila photoreceptors and indicate a novel signaling pathway for light-activated rhodopsin molecules in control of photoreceptor viability.",

author = "Alexander Kiselev and Michael Socolich and Javier Vin{\'o}s and Hardy, {Robert W.} and Zuker, {Charles S.} and Rama Ranganathan",

note = "Funding Information: We thank Helmut Kramer for providing shi ts1 flies, Steven Britt for help with the Rh1StoA transgenic flies, and Richard Kibbey for help with isolation of clathrin cages. We also thank Michael Brown and members of the Ranganathan lab for critical review of the manuscript. This work was partially supported by grants to A. K. from the American Heart Association, Texas Affiliate (98BG052), and to R. R. from the Robert A. Welch Foundation (I-1366). R. R. is a recipient of the Burroughs-Wellcome Fund New Investigator Award in the Basic Pharmacological Sciences. R. R. is an Assistant Investigator and C. Z. is an Investigator of the Howard Hughes Medical Institute.",

year = "2000",

doi = "10.1016/S0896-6273(00)00092-1",

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pages = "139--152",

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T1 - A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila

AU - Kiselev, Alexander

AU - Socolich, Michael

AU - Vinós, Javier

AU - Hardy, Robert W.

AU - Zuker, Charles S.

AU - Ranganathan, Rama

N1 - Funding Information: We thank Helmut Kramer for providing shi ts1 flies, Steven Britt for help with the Rh1StoA transgenic flies, and Richard Kibbey for help with isolation of clathrin cages. We also thank Michael Brown and members of the Ranganathan lab for critical review of the manuscript. This work was partially supported by grants to A. K. from the American Heart Association, Texas Affiliate (98BG052), and to R. R. from the Robert A. Welch Foundation (I-1366). R. R. is a recipient of the Burroughs-Wellcome Fund New Investigator Award in the Basic Pharmacological Sciences. R. R. is an Assistant Investigator and C. Z. is an Investigator of the Howard Hughes Medical Institute.

PY - 2000

Y1 - 2000

N2 - Light-induced photoreceptor apoptosis occurs in many forms of inherited retinal degeneration resulting in blindness in both vertebrates and invertebrates. Though mutations in several photoreceptor signaling proteins have been implicated in triggering this process, the molecular events relating light activation of rhodopsin to photoreceptor death are yet unclear. Here, we uncover a pathway by which activation of rhodopsin in Drosophila mediates apoptosis through a G protein-independent mechanism. This process involves the formation of membrane complexes of phosphorylated, activated rhodopsin and its inhibitory protein arrestin, and subsequent clathrin-dependent endocytosis of these complexes into a cytoplasmic compartment. Together, these data define the proapoptotic molecules in Drosophila photoreceptors and indicate a novel signaling pathway for light-activated rhodopsin molecules in control of photoreceptor viability.

AB - Light-induced photoreceptor apoptosis occurs in many forms of inherited retinal degeneration resulting in blindness in both vertebrates and invertebrates. Though mutations in several photoreceptor signaling proteins have been implicated in triggering this process, the molecular events relating light activation of rhodopsin to photoreceptor death are yet unclear. Here, we uncover a pathway by which activation of rhodopsin in Drosophila mediates apoptosis through a G protein-independent mechanism. This process involves the formation of membrane complexes of phosphorylated, activated rhodopsin and its inhibitory protein arrestin, and subsequent clathrin-dependent endocytosis of these complexes into a cytoplasmic compartment. Together, these data define the proapoptotic molecules in Drosophila photoreceptors and indicate a novel signaling pathway for light-activated rhodopsin molecules in control of photoreceptor viability.

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A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila

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