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Control of enzyme secretion by non-cholinergic, non-adrenergic nerves in guinea pig pancreas

Nature volume 290pages 259–261 (1981)Cite this article

Abstract

Depolarization of pancreatic cells by exposure to high potassium solutions is associated with release of amylase. In the guinea pig, but not the mouse or cat, this Ca-dependent amylase secretion is resistant to atropine blockade1–4, thus Scheele and Haymovits3,4 concluded that the enzyme secretion evoked by K depolarization does not involve release of transmitter from intrapancreatic nerves but is a consequence of Ca uptake into acinar cells mediated by the membrane depolarization. This hypothesis is inconsistent with current concepts of stimulus–secretion coupling in electrically non-excitable cells5. The observation of Scheele and Haymovits could, however, also be explained by the release of a non-cholinergic, secretomotor transmitter as a consequence of the depolarization of intrapancreatic nerves. By adapting the technique of electrical field stimulation of isolated pancreatic segments6,7 to our studies of amylase secretion, we have now been able to demonstrate both cholinergic and non-cholinergic, non-adrenergic secretomotor nerves in the guinea pig pancreas. Excitation of the non-cholinergic nerves stimulates amylase secretion by a different intracellular coupling mechanism from that activated by cholinergic nerves or by peptides belonging to the cholecystokinin, gastrin or bombesin families8.

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Authors and Affiliations

  1. Department of Physiology, University of Dundee, Dundee, DD1 4HN, UK

    G. T. Pearson, J. S. Davison, R. C. Collins & O. H. Petersen

Authors
  1. G. T. Pearson
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  2. J. S. Davison
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  3. R. C. Collins
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  4. O. H. Petersen
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Pearson, G., Davison, J., Collins, R. et al. Control of enzyme secretion by non-cholinergic, non-adrenergic nerves in guinea pig pancreas. Nature 290, 259–261 (1981). https://doi.org/10.1038/290259a0

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