The TRP Ca<sup>2+</sup> channel assembled in a signaling complex by the PDZ domain protein INAD is phosphorylated through the interaction with protein kinase C (ePKC)

Huber, Armin; Sander, Philipp; Bähner, Monika; Paulsen, Reinhard

doi:10.1016/s0014-5793(98)00248-8

Cited by 82 publications

(64 citation statements)

References 35 publications

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“…Ca 2+ influx through the TRP channels is much higher in the inaC mutant than in the wild-type, indicating that INAC is required for inactivation of the TRP channels [161]. TRP is phosphorylated by INAC [164,165] and a mutation that abolishes the primary INAC-dependent phosphorylation site in TRP causes slow termination of the light response [166]. These data suggest that INAC contributes to deactivation, at least in part by directly phosphorylating the TRP channel.…”

Section: Ca 2+ -Dependent Termination Of the Photoresponsementioning

confidence: 91%

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Phototransduction and retinal degeneration in Drosophila

Wang

Montell

2007

Pflugers Arch - Eur J Physiol

257

303

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Drosophila visual transduction is the fastest known G-protein-coupled signaling cascade and has therefore served as a genetically tractable animal model for characterizing rapid responses to sensory stimulation. Mutations in over 30 genes have been identified, which affect activation, adaptation, or termination of the photoresponse. Based on analyses of these genes, a model for phototransduction has emerged, which involves phosphoinoside signaling and culminates with opening of the TRP and TRPL cation channels. Many of the proteins that function in phototransduction are coupled to the PDZ containing scaffold protein INAD and form a supramolecular signaling complex, the signalplex. Arrestin, TRPL, and Gα q undergo dynamic light-dependent trafficking, and these movements function in long-term adaptation. Other proteins play important roles either in the formation or maturation of rhodopsin, or in regeneration of phosphatidylinositol 4,5-bisphosphate (PIP 2 ), which is required for the photoresponse. Mutation of nearly any gene that functions in the photoresponse results in retinal degeneration. The underlying bases of photoreceptor cell death are diverse and involve mechanisms such as excessive endocytosis of rhodopsin due to stable rhodopsin/arrestin complexes and abnormally low or high levels of Ca 2+ . Drosophila visual transduction appears to have particular relevance to the cascade in the intrinsically photosensitive retinal ganglion cells in mammals, as the photoresponse in these latter cells appears to operate through a remarkably similar mechanism.

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Section: Ca 2+ -Dependent Termination Of the Photoresponsementioning

confidence: 91%

“…At least three members of the signalplex are phosphorylated by PKC: NINAC, INAD and TRP [164,165]. In an in vitro assay, PKC phosphorylation of TRP is promoted by INAD and mutation of the major PKC phosphorylation in TRP site results in a slower deactivation kinetics [166].…”

Section: The Signalplexmentioning

confidence: 99%

Phototransduction and retinal degeneration in Drosophila

Wang

Montell

2007

Pflugers Arch - Eur J Physiol

257

303

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“…INAC has been shown to play critical roles in deactivating TRP channels [61]. INAC is one member of the PKC family of serine/threonine protein kinases [62,63], which is activated by Ca 2+ and DAG [64].…”

Section: Deactivation Of the Phototransduction Cascadementioning

confidence: 99%

“…INAC is one member of the PKC family of serine/threonine protein kinases [62,63], which is activated by Ca 2+ and DAG [64]. Using phosphorylation assays in isolated signaling complexes, TRP was identified to undergo Ca 2+ -dependent phosphorylation modification [61]. CaM is likely to be another regulator in the deactivation of TRP and TRPL channels.…”

Section: Deactivation Of the Phototransduction Cascadementioning

confidence: 99%

Phototransduction in Drosophila

Tian

Tong

et al. 2012

Sci. China Life Sci.

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The Drosophila visual transduction is the fastest known G protein-coupled signaling cascade and has been served as a model for understanding the molecular mechanisms of other G protein-coupled signaling cascades. Numbers of components in visual transduction machinery have been identified. Based on the functional characterization of these genes, a model for Drosophila phototransduction has been outlined, including rhodopsin activation, phosphoinoside signaling, and the opening of TRP and TRPL channels. Recently, the characterization of mutants, showing slow termination, revealed the physiological significance and the mechanism of rapid termination of light response.

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“…Ca 2ϩ has been proposed to act directly on the light-activated channels (Hardie and Minke, 1994;Hardie, 1995;Obukhov et al, 1998), or via binding to calmodulin that interacts with the light-activated channels (Phillips et al, 1992: Warr andKelly, 1996;Scott et al, 1997). Additionally, a Ca 2ϩ -regulated PKC (Huber et al, 1998) is crucial for Ca 2ϩ -dependent deactivation of the light response (Ranganathan et al, 1991) and light adaptation (Hardie et al, 1993). Other important molecules in the phototransduction cascade that have been suggested to be modulated by Ca 2ϩ or by Ca 2ϩ /calmodulin include neitherinactivation-nor-afterpotential C (Porter et al, 1993), inactivationnor-afterpotential D (Chevesich et al, 1997), and PLC (Running Deer et al, 1995).…”

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confidence: 99%

Calcium Transients in the Rhabdomeres of Dark- and Light-Adapted Fly Photoreceptor Cells

Oberwinkler

Stavenga

2000

J. Neurosci.

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The light response of fly photoreceptor cells is modulated by changes in free Ca 2ϩ concentration. Fly phototransduction and most processes regulating it take place in or very close to the rhabdomere. We therefore measured the kinetics and the absolute values of the free Ca 2ϩ concentration in the rhabdomere of fly photoreceptor cells in vivo by making use of the natural optics of the fly's eye. We show that Ca 2ϩ flowing into the rhabdomere after light stimulation of dark-adapted cells causes fast Ca 2ϩ transients that reach peak values higher than 200 M in Ͻ20 msec. Approximately 500 msec later, the free Ca 2ϩ concentration has declined again to ϳ20 M. The duration of the Ca 2ϩ transients becomes still shorter, and their size reduced, when the photoreceptor cell is light-adapted. This reduction in duration and size of the Ca 2ϩ transients is graded with the intensity of the adapting light. The kinetics and absolute values of the free calcium concentration found to occur in the rhabdomere are suitable to mediate the fast feedback signals known to act on the fly phototransduction cascade.

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The TRP Ca²⁺ channel assembled in a signaling complex by the PDZ domain protein INAD is phosphorylated through the interaction with protein kinase C (ePKC)

Cited by 82 publications

References 35 publications

Phototransduction and retinal degeneration in Drosophila

Phototransduction and retinal degeneration in Drosophila

Phototransduction in Drosophila

Calcium Transients in the Rhabdomeres of Dark- and Light-Adapted Fly Photoreceptor Cells

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The TRP Ca2+ channel assembled in a signaling complex by the PDZ domain protein INAD is phosphorylated through the interaction with protein kinase C (ePKC)

Cited by 82 publications

References 35 publications

Phototransduction and retinal degeneration in Drosophila

Phototransduction and retinal degeneration in Drosophila

Phototransduction in Drosophila

Calcium Transients in the Rhabdomeres of Dark- and Light-Adapted Fly Photoreceptor Cells

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The TRP Ca²⁺ channel assembled in a signaling complex by the PDZ domain protein INAD is phosphorylated through the interaction with protein kinase C (ePKC)