Exploring Excitotoxicity and Regulation of a Constitutively Active TRP Ca Channel in Drosophila.

Unregulated Ca influx affects intracellular Ca homoeostasis, which may lead to neuronal death. In , following the activation of rhodopsin the TRP Ca channel is open to mediate the light-dependent depolarization. A constitutively active TRP channel triggers the degeneration of /+ photoreceptors. To explore retinal degeneration, we employed a multidisciplinary approach including live imaging using GFP tagged actin and arrestin 2. Importantly, we demonstrate that the major rhodopsin (Rh1) was greatly reduced before the onset of rhabdomere degeneration; a great reduction of Rh1 affects the maintenance of rhabdomere leading to degeneration of photoreceptors. /+ also led to the up-regulation of CaMKII, which is beneficial as suppression of CaMKII accelerated retinal degeneration. We explored the regulation of TRP by investigating the genetic interaction between /+ and mutants affecting the turnover of diacylglycerol (DAG). We show a loss of phospholipase C in exhibited a great reduction of the DAG content delayed degeneration of /+ photoreceptors. In contrast, knockdown or mutations in DAG lipase (InaE) that is accompanied by slightly reduced levels of most DAG but an increased level of DAG 34:1, exacerbated retinal degeneration of /+. Together, our findings support the notion that DAG plays a role in regulating TRP. Interestingly, DAG lipase is likely required during photoreceptor development as /+; double mutants contained severely degenerated rhabdomeres.