Action of secretagogues on a new preparation of functionally intact, isolated pancreatic acini

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Action of secretagogues on a new preparation of functionally intact, isolated pancreatic acini

John A. Williams ¹, Murray Korc ¹, and Robert L. Dormer ¹

¹ Departments of Physiology and Medicine, University of California, and Metabolism Section, Veterans Administration Hospital, San Francisco, California 94143

Isolated pancreatic acini were prepared by a new method frommouse and rat pancreases by digestion with purified collagenaseand chymotrypsin followed by mechanical shearing. Acini werestructurally similar to those of the intact pancreas, havinga normal luminal structure but with the basal acinar cell membranesexposed to the incubation medium. Amylase release in responseto both cholinergic analogues and the cholecystokinin analoguescaerulein and pentagastrin was comparable to that of the intactpancreas, but was much greater than previously reported forisolated acinar cells. Cholinergic-stimulated release was inhibitedby atropine with a K_i value of 1.4 nM which is comparable toother muscarinic receptors. All agonists tested, when addedat supramaximal concentrations, produced a submaximal releaseof amylase even though ATP levels and the release of slowlyexchanging ⁴⁵Ca²⁺ were normal or increased. Acini releasingamylase submaximally after being exposed to supramaximal concentrationsof carbachol failed to respond to a maximal amount of caeruleinor to the Ca²⁺ ionophore A23187. It is concluded that the decreasedresponse (desensitization) is a postreceptor phenomenon andpossibly mediated by Ca²⁺ itself.

calcium; amylase; exocrine pancreas; mice

Submitted on March 20, 1978
Accepted on June 19, 1978

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