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Exp Clin Endocrinol Diabetes 1989; 93(2/03): 125-135
DOI: 10.1055/s-0029-1210845
Original

© J. A. Barth Verlag in Georg Thieme Verlag KG Stuttgart · New York

Plasma Membrane Associated ATP as a Regulator of the Secretory Activity of the Pancreatic β-Cell

B. Hellman, E. Gylfe, N. Wesslén, A. Hallberg, Eva Grapengiesser, A. Marcström
  • Department of Medical Cell Biology, and Department of Zoophysiology, University of Uppsala, Sweden
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Publication History

1988

Publication Date:
16 July 2009 (online)

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Summary

β-Cell-rich pancreatic islets from ob/ob-mice were used for evaluating how ATP associated with the plasma membrane participates in the regulation of insulin release. Increase of Ca2+ initiates insulin release from permeabilized β-cells only in the presence of Mg-ATP. When bound to the inner part of the plasma membrane ATP depolarizes the β-cells by closing a glucose-regulated K+-channel. It is possible that ATP in a plasma membrane compartment modulates insulin release also by stimulating ion pumps and exchange processes. ATP can regulate the secretory activity by binding also to the exterior of the β-cells. The addition of ATP resulted in stimulation of insulin release related to polyphosphoinositide breakdown. It is suggested that the granule fusion with the plasma membrane is followed by release of sufficient amounts of ATP and ADP for activating a P2-purino-ceptor. This receptor may consequently be part of a system for amplifying the secretory response to glucose and other agents facilitating the entry of Ca2+.

Key Words

Pancreatic Islets - Insulin secretion - ATP compartements - K+-channel

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