Inhibiting Ca(2+) uptake by the sarcoendoplasmic reticular Ca(2+)-ATPase pump (SERCA) causes release of Ca(2+) from the endoplasmic reticulum (ER), increased cytosolic Ca(2+) ([Ca(2+)](cyt)) and depletion of ER Ca(2+) stores. These studies were designed to test the effects of SERCA inhibition on neuronal viability, using as a model the human neuroblastoma cell line, SH-SY5Y. Continuous exposure to the SERCA inhibitor thapsigargin (TG) decreased SH-SY5Y viability to <30% after 48 h exposure, and produced DNA laddering. Two other SERCA inhibitors, BHQ and cyclopiazonic acid CPA, were similarly toxic, although at 1000-fold higher concentrations. BHQ and CPA toxicity was prevented by removing drug within several hours, whereas TG toxicity was essentially irreversible. All three SERCA inhibitors caused an increase in [Ca(2+)](cyt) that was partially blocked by the ryanodine receptor inhibitors, dantrolene and DHBP. Pretreatment with 40 microM dantrolene gave substantial protection against TG- or BHQ-induced cell death but it did not inhibit death from staurosporine, which does not cause release of ER Ca(2+). DHBP (20-100 microM) also gave partial protection against TG toxicity, as did ruthenium red (2 microM), but not ryanodine (10 microM). Inhibition of capacitative Ca(2+) entry with EGTA or LaCl(3) or low extracellular Ca(2+), or chelation of [Ca(2+)](cyt) with BAPTA-AM, failed to inhibit TG toxicity, although they prevented increases in [Ca(2+)](cyt) caused by TG. Taken together, these data suggest that toxicity caused by SERCA inhibition in SH-SY5Y cells is caused by ER Ca(2+) depletion, which triggers an apparent apoptotic pathway.
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