Abstract
Recent studies have suggested a central role for Ca(2+) in the signaling pathway of apoptosis and certain anti-apoptotic effects of Bcl-2 family of proteins have been attributed to changes in intracellular Ca(2+) homeostasis. Here we report that depletion of Ca(2+) from endoplasmic reticulum (ER) leads to apoptosis in Chinese hamster ovary cells. Stable expression of ryanodine receptor (RyR) in these cells enables rapid and reversible changes of both cytosolic Ca(2+) and ER Ca(2+) content via activation of the RyR/Ca(2+) release channel by caffeine and ryanodine. Sustained depletion of the ER Ca(2+) store leads to apoptosis in Chinese hamster ovary cells, whereas co-expression of Bcl-xL and RyR in these cells prevents apoptotic cell death but not necrotic cell death. The anti-apoptotic effect of Bcl-xL does not correlate with changes in either the Ca(2+) release process from the ER or the capacitative Ca(2+) entry through the plasma membrane. The data suggest that Bcl-xL likely prevents apoptosis of cells at a stage downstream of ER Ca(2+) release and capacitative Ca(2+) entry.
Highlights
Apoptosis, an evolutionarily conserved programmed cell death process, plays a central role in both development and homeostasis of tissues
Stable clones of Chinese hamster ovary (CHO) cells co-expressing Bcl-xL and wt-RyR1 were generated by transfection of Bcl-xL cDNA into CHO-ryanodine receptor (RyR) cells, as revealed by the distinct band of 30-kDa protein recognized by the anti-Bcl-xL antibody, and ϳ560-kDa protein corresponding to the wt-RyR1
Stable expression of RyR enables rapid and reversible changes of Ca2ϩ release across the endoplasmic reticulum (ER) membrane, providing a convenient means for studying the role of Ca2ϩ signaling in apoptosis
Summary
An evolutionarily conserved programmed cell death process, plays a central role in both development and homeostasis of tissues. We examined the possibility that depletion of the ER Ca2ϩ stores by activation of RyR/Ca2ϩ release channel can directly induce apoptosis in cultured Chinese hamster ovary (CHO) cells.
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