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J Biol Chem, Vol. 273, Issue 15, 9297-9305, April 10, 1998

Dependence of the Ca²⁺-inhibitable Adenylyl Cyclase of C6-2B Glioma Cells on Capacitative Ca²⁺ Entry

Kent A. Fagan, Nicole Mons, and Dermot M. F. Cooper

From the Department of Pharmacology and Neuroscience Program, University of Colorado Health Sciences Center, Denver, Colorado 80262 and  URA-CNRS 339, University of Bordeaux I, Talence F-33405, France

The ability of adenylyl cyclases to be regulated by physiological transitions in Ca²⁺ provides a key point for integration of cytosolic Ca²⁺ concentration ([Ca²⁺]_i) and cAMP signaling. Ca²⁺-sensitive adenylyl cyclases, whether endogenously or heterologously expressed, require Ca²⁺ entry for their regulation, rather than Ca²⁺ release from intracellular stores (Chiono, M., Mahey, R., Tate, G., and Cooper, D. M. F. (1995) J. Biol. Chem. 270, 1149-1155; Fagan, K., Mahey, R., and Cooper, D. M. F. (1996) J. Biol. Chem. 271, 12438-12444). The present study compared the regulation by capacitative Ca²⁺ entry versus ionophore-mediated Ca²⁺ entry of an endogenously expressed Ca²⁺-inhibitable adenylyl cyclase in C6-2B cells. Even in the face of a dramatic [Ca²⁺]_i rise generated by ionophore, Ca²⁺ entry via capacitative Ca²⁺ entry channels was solely responsible for the regulation of the adenylyl cyclase. Selective efficacy of BAPTA over equal concentrations of EGTA in blunting the regulation of the cyclase by capacitative Ca²⁺ entry defined the intimacy between the adenylyl cyclase and the capacitative Ca²⁺ entry sites. This association could not be impaired by disruption of the cytoskeleton by a variety of strategies. These results not only establish an intimate spatial relationship between an endogenously expressed Ca²⁺-inhibitable adenylyl cyclase with capacitative Ca²⁺ entry sites but also provide a physiological role for capacitative Ca²⁺ entry other than store refilling.

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