Abstract

Free [Ca2+] in agonist-sensitive internal stores of single intact cells was measured in situ in order to examine the role of [Ca2+] in modulating the store refilling process. BHK-21 fibroblasts were loaded with the low-affinity fluorescent calcium indicator mag-fura-2-AM such that >80% of the dye was trapped in organelles, where it reported [Ca2+] changes solely in an agonist- and thapsigargin-sensitive internal store. The rates of store reloading following stimulation by 100 nM bradykinin were essentially unchanged when cytosolic [Ca2+] was clamped to resting values with BAPTA-AM. In control cells, recharging of stores totally depended on the presence of external Ca2+, but pre-loading the cells with BAPTA-AM permitted efficient refilling in Ca2+-free, EGTA-containing external medium. Our results show: (i) Ca2+ stores normally are recharged by Ca2+ which must first transit the cytoplasm; (ii) an elevation in cytoplasmic [Ca2+] is not required to replenish Ca2+ stores; (iii) the activation of the plasma membrane Ca2+ pump during the Ca2+ spike ordinarily results in complete extrusion of released Ca2+; and (iv) the buffering capacity of the cytoplasm is an essential component of the store refilling process. An interesting finding was that acute treatment of cells with BAPTA-AM activated capacitative Ca2+ entry at the plasma membrane, due to its efficient hydrolysis in the stores, and the ensuing decrease in the endoplasmic reticulum [Ca2+].

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