Ca 2+ binding to Esyt is required to modulate membrane contact site density in Drosophila photoreceptors

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Abstract

Membrane Contact Sites (MCS) between the plasma membrane (PM) and endoplasmic reticulum (ER) have been shown to regulate Ca 2+ influx into animal cells. However, the mechanisms by which cells modulate ER-PM MCS density is not understood and the role of Ca 2+ , if any, in regulating this process is not known. We report that in Drosophila photoreceptors, MCS density is dependent on the activity of the Ca 2+ permeable channels-TRP and TRPL. This regulation of MCS density by Ca 2+ is mediated by extended synaptotagmin (dEsyt), a protein localised to ER-PM MCS in photoreceptors and previously shown to regulate MCS density. We find that the Ca 2+ binding activity of dEsyt is required for its functional activity in vivo . dEsyt CaBM , a Ca 2+ non-binding mutant of dEsyt is unable to modulate MCS structure in a manner equivalent to its wild type counterpart. Further, when reconstituted in dEsyt null photoreceptors, in contrast to wild type dEsyt, dEsyt CaBM is unable to rescue ER-PM MCS density and other key phenotypes. Finally, when expressed in wild type photoreceptors, dEsyt CaBM phenocopies loss of dEsyt function. Taken together, our data supports a role for the Ca 2+ binding activity of dEsyt in regulating the ER-PM MCS density in photoreceptors thus tuning signal transduction in response to Ca 2+ influx triggered by ambient illumination. Abstract Figure

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europepmc
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License: CC-BY-NC-ND-4.0