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In 1992, Ca(2+) microdomains were shown to exist in presynaptic nerve terminals. Soon thereafter, in 1993, Ca(2+) microdomains were demonstrated in the apical granule containing region of pancreatic acinar cells. The pancreatic acinar cell is specialized for bulk secretion of digestive enzymes and therefore has a relatively large apical micro-domain, dominated by secretory (zymogen) granules, in which Ca(2+) signalling is of crucial physiological significance because of the need to exercise precise control of the exocytotic secretory events. Local Ca(2+) signalling in the apical domain occurs by repetitive episodes of Ca(2+) release from a relatively small volume of endoplasmic reticulum (ER) terminals that are functionally fully connected to the bulk of the ER in the baso-lateral region, which is the quantitatively dominant Ca(2+) store. Thus Ca(2+) release from the small volume of the apical ER terminals can be sustained by intra-ER Ca(2+) diffusion from the basal to the apical parts of the cells. In this short review the particular characteristics of the apical Ca(2+) signalling domain will be discussed with special emphasis on its passive and active Ca(2+) buffering properties and its ability to respond to local Ca(2+) elevations by Ca(2+)-induced Ca(2+) release. The functional significance of these characteristics for appropriate Ca(2+) spiking are discussed as well as the pathophysiological consequences of destroying the Ca(2+) signalling microdomain. Copyright © 2015 Elsevier Ltd. All rights reserved.


Ole H Petersen. Ca²⁺ signalling in the endoplasmic reticulum/secretory granule microdomain. Cell calcium. 2015 Oct;58(4):397-404

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PMID: 25662795

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