Defective Regulation of Insulin Release and Transmembrane Ca2+ Fluxes by Human Islet Cell Tumours

Overview

Journal Br J Cancer

Specialty Oncology

Date 1987 Oct 1

PMID 2825749

Citations 1

Authors

P R Flatt

C J Powell

V Marks

Affiliations

Soon will be listed here.

Abstract

Regulation of insulin release and transmembrane Ca2+ fluxes was examined using pieces of 3 benign medullary-type insulinomas removed from the pancreas of female patients at surgery. Immunocytochemical staining confirmed the presence of insulin-containing cells with no demonstrable glucagon, somatostatin or pancreatic polypeptide. After 3 days of culture in RPMI-1640, tumour pieces released 11-158 mg insulin kg-1 dry wt during acute 60 min incubations with the concomitant uptake of 2-47 mmol 45Ca kg-1 into the intracellular lanthanum-nondisplaceable pool. At 2.56 mM Ca2+, glucose alone or in combination with glyceraldehyde, mannoheptulose or diazoxide did not modify insulin release or 45Ca uptake. Theophylline significantly increased insulin release from 2 tumours with a small stimulatory effect on the third. A depolarising concentration of K+ enhanced insulin release from one tumour but this was not associated with an increase of 45Ca uptake. Calcium antagonists, (verapamil, D-600 and trifluoroperazine) and calcium ionophores (A23187 and Br-X537A) failed to modify insulin release or 45Ca uptake by each of the two tumours tested. Evaluation of 45Ca efflux from one tumour confirmed the unresponsiveness to glucose, K+, verapamil and A23187. Prolonged culture of 2 tumours for up to 16 days was associated with the gradual decline of insulin release to a steady output of 2-15 ng 24 h-1. Addition of verapamil to the cultures inhibited insulin output from one tumour, but mannoheptulose or diazoxide were without effect. The results indicate that inappropriate insulin release from these 3 benign medullary-type insulinomas is associated with disturbances in the regulation of transmembrane Ca2+ fluxes.

Citing Articles

Response of human insulinoma cells to extracellular calcium is different from normal B cells.

Kato M, Doi R, Imamura M, Okada N, Shimada Y, Hosotani R Dig Dis Sci. 1998; 43(11):2429-38.

PMID: 9824130 DOI: 10.1023/a:1026626014100.

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