| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6264067 | Brain Research | 2012 | 9 Pages |
Presenilins are necessary for calcium homeostasis and also for efficient proteolysis through the autophagy/lysosome system. Presenilin regulates both endoplasmic reticulum calcium stores and autophagic proteolysis in a γ-secretase independent fashion. The endo-lysosome system can also act as a calcium store, with calcium efflux channels being recently identified as two-pore channels 1 and 2. Here we investigated lysosomal calcium content and the channels that mediate calcium release from these acidic stores in presenilin knockout cells. We report that presenilin loss leads to a lower total lysosomal calcium store despite the buildup of lysosomes found in these cells. Additionally, we find alterations in two-pore calcium channel protein expression, with loss of presenilin preventing the formation of a high molecular weight species of TPC1 and TPC2. Finally, we find that treatments that disturb lysosomal calcium release lead to a reduction in autophagy function yet lysosomal inhibitors do not alter two-pore calcium channel expression. These data indicate that alterations in lysosomal calcium in the absence of presenilins might be leading to disruptions in autophagy.
⺠Presenilin loss leads a reduction in overall lysosomal calcium content. ⺠Presenilins regulate expression of two-pore lysosomal calcium channels. ⺠Inhibition of lysosomal calcium channels decreases autophagic function. ⺠Thus, presenilin regulation of lysosomal calcium modulates autophagy.
