Differential activation of rhodopsin triggers distinct endocytic trafficking and recycling in vivo via differential phosphorylation
Darwin Ferng, Wesley Sun, Bih-Hwa Shieh

TL;DR
Different light stimuli cause rhodopsin to activate in ways that lead to distinct trafficking and recycling processes in fly photoreceptors.
Contribution
The study reveals two distinct endocytic and recycling mechanisms of rhodopsin triggered by different light stimulations.
Findings
Blue light stimulation leads to clathrin-mediated endocytosis of rhodopsin and arrestin.
Green light stimulation causes a non-CME pathway with faster recycling of rhodopsin.
Differential phosphorylation patterns of rhodopsin affect protein interactions and recycling outcomes.
Abstract
Activated GPCRs are phosphorylated and internalized mostly via clathrin-mediated endocytosis (CME), which are then sorted for recycling or degradation. We investigated how differential activation of the same GPCR affects its endocytic trafficking in vivo using rhodopsin as a model in pupal photoreceptors of flies expressing mCherry-tagged rhodopsin 1 (Rh1-mC) or GFP-tagged arrestin 1 (Arr1-GFP). Upon blue light stimulation, activated Rh1 recruited Arr1-GFP to the rhabdomere, which became co-internalized and accumulated in cytoplasmic vesicles of photoreceptors. This internalization was eliminated in shits1 mutants affecting dynamin. Moreover, it was blocked by either rdgA or rdgB mutations affecting the PIP2 biosynthesis. Together, the blue light-initiated internalization of Rh1 and Arr1 belongs to CME. Green light stimulation also triggered the internalization and accumulation of…
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Taxonomy
TopicsReceptor Mechanisms and Signaling · Photoreceptor and optogenetics research · Cellular transport and secretion
