The examination of the physiological role of CaMKII has made substantial progress in non-epithelial systems but little is known about its function in secretory epithelial cells. A prototypic exocrine cell, the acid secreting gastric parietal cell, largely redistributes its cytoplasmic tubulocisternal membranes (TC) to the secretory apical membrane (SA) after stimulation. We here present a dependence of physiological response on partitioned initial CaMKII activities redistributed between TC and SA. Initial acid secretion after cholinergic stimulation has doubled if activities of phosphatases PP1/PP2A and protein kinase PKC-alpha were inhibited by the inhibitors calyculin A and Gö 6976. CaMKII appears to be integrated in multienzyme complexes each specific for TC and SA. Therein, PP1/PP2A and PKC-alpha were found to permanently counteract initial CaMKII activities in different modes of transregulation. Remarkably, a dys-transregulated, hyperactive CaMKII at TC did not result in an increased acid secretion to the same extent. A simple mathematical model to estimate the share of TC- and SA-associated CaMKII activities in cholinergically induced acid secretion suggests that TC-associated CaMKII appears to autoregulate its contribution to the physiological response by a negative feedback control. Subcellular distribution and stimulus-dependent redistribution of domain-associated CaMKII signalosomes indicate a fine balanced, adaptive system to guarantee a stable physiological response.
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