Abstract
Stromal interaction molecule (STIM) proteins are putative ER Ca2+ sensors that recruit and activate store-operated Ca2+ (SOC) channels at the plasma membrane, a process triggered by the Ca2+ depletion of the endoplasmic reticulum (ER). To test whether STIM1 is required for ER refilling, we used RNA interference and measured Ca2+ signals in the cytosol, the ER, and the mitochondria of HeLa cells. Knockdown of STIM1 (mRNA levels, 73%) reduced SOC entry by 73% when sarco/endoplasmic Ca2+ ATPases (SERCA) were inhibited by thapsigargin but did not prevent Ca2+ stores refilling when cells were stimulated by physiological agonists. Stores could be fully refilled by increasing the external Ca2+ concentration above physiological values, but no cytosolic Ca2+ signals were detected during store refilling even at very high Ca2+ concentrations. [Ca2+](ER) measurements revealed that the basal activity of SERCA was not affected in STIM1 knockdown cells and that [Ca2+](ER) levels were restored within 2 min in physiological saline following store depletion. Mitochondrial inhibitors reduced ER refilling in wild-type but not in STIM1 knockdown cells, indicating that ER refilling does not require functional mitochondria at low STIM1 levels. Our data show that ER refilling is largely preserved at reduced STIM1 levels, despite a drastic reduction of store-operated Ca2+ entry, because Ca2+ ions are directly transferred from SOC channels to SERCA. These findings are consistent with the formation of microdomains containing not only SOC channels on the plasma membrane and STIM proteins on the ER but also SERCA pumps and mitochondria to refill the ER without perturbing the cytosol.
Highlights
Two protein families, Stromal interaction molecule (STIM) and Orai, were identified recently as essential for store-operated Ca2؉ (SOC) activity [4, 5]
Effect of STIM1 Knockdown on Calcium Release and Influx— To decrease cellular STIM1 levels, double-stranded RNAs designed against STIM1 were transiently transfected in HeLa cells, together with a “cameleon” Ca2ϩ-sensitive fluorescent protein (YC3.6) that was used as a marker of transfection
Consistent with a decreased Ca2ϩ influx but preserved Ca2ϩ store content, the addition of thapsigargin in Ca2ϩ-free medium to passively deplete Ca2ϩ stores elicited similar responses in control and STIM1 knockdown cells, whereas the response elicited by the further readdition of Ca2ϩ was severely inhibited in STIM1 knockdown cells, the area under the curve being reduced by 73% (Fig. 1, B and C)
Summary
STIM and Orai, were identified recently as essential for SOC activity [4, 5]. No Ca2ϩ changes were observed in the cytosol during Ca2ϩ readmission, Ca2ϩ stores were able to refill efficiently in STIM1 knockdown cells. Stores—The ability of STIM1 knockdown cells to remobilize Ca2ϩ from internal stores after the depletion/readmission protocol indicated that a “silent” supply of Ca2ϩ ions sustained the activity of SERCA pumps.
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