Stimulus-secretion Coupling of Hypotonicity-induced Insulin Release in BRIN-BD11 Cells

Overview

Journal Endocrine

Specialty Endocrinology

Date 2007 May 29

PMID 17526948

Citations 5

Authors

Renaud Beauwens

Len Best

Nicolas Markadieu

Raphael Crutzen

Karim Louchami

Peter Brown

Allen P Yates

Willy J Malaisse

Abdullah Sener

Affiliations

Soon will be listed here.

Abstract

The stimulus-secretion coupling for hypotonicity-induced insulin release was investigated in BRIN-BD11 cells. A 50 mM decrease in extracellular NaCl caused a twofold increase in insulin release. The release of insulin evoked by hypotonicity progressively decreased in an exponential manner. The response to extracellular hypotonicity displayed a threshold value close to 20 mOsmol/L and a maximal response at about 70 mOsmol/ L. Hypotonicity also caused a rapid increase in cell volume followed by a regulatory volume decrease (RVD), cell membrane depolarization with induction of spike activity, and a rise in cytosolic Ca2+ concentration. 5-Nitro-2-(3-phenylpropylamino)benzoate inhibited the secretory response to hypoosmolarity, failed to affect the early increase in cell volume but prevented the RVD, and suppressed the hypotonicity-induced plasma membrane depolarization. Insulin release provoked by hypotonicity was inhibited by verapamil, absence of Ca2+, thapsigargin, furosemide, tributyltin, and diazoxide. On the contrary, tolbutamide augmented modestly insulin release recorded in the hypoosmolar medium. Last, a rise in extracellular K+ concentration, while augmenting basal insulin output, failed to affect insulin release in the hypoosmolar medium. Thus, the insulin secretory response to hypotonicity apparently represents a Ca2+-dependent process triggered by the gating of volume-sensitive anion channels with subsequent depolarization and gating of voltage-sensitive Ca2+ channels.

Citing Articles

Hypertonicity during a rapid rise in D-glucose mediates first-phase insulin secretion.

Kamat V, Sweet I Front Endocrinol (Lausanne). 2024; 15:1395028.

PMID: 38989001 PMC: 11233695. DOI: 10.3389/fendo.2024.1395028.

Effect of cytochalasin B on 3-O-[C]-methyl-D-glucose or D-[U-C]glucose handling by BRIN-BD11 cells.

Cetik S, Rzajeva A, Malaisse W, Sener A Biomed Rep. 2014; 2(4):513-516.

PMID: 24944798 PMC: 4051465. DOI: 10.3892/br.2014.269.

Does NAD(P)H oxidase-derived H2O2 participate in hypotonicity-induced insulin release by activating VRAC in β-cells?.

Crutzen R, Shlyonsky V, Louchami K, Virreira M, Hupkens E, Boom A Pflugers Arch. 2011; 463(2):377-90.

PMID: 22089811 DOI: 10.1007/s00424-011-1047-x.

Studies of the mechanism of activation of the volume-regulated anion channel in rat pancreatic beta-cells.

Best L, Brown P J Membr Biol. 2009; 230(2):83-91.

PMID: 19669073 DOI: 10.1007/s00232-009-9189-x.

Direct effects of eicosapentaenoic and docosahexaenoic acids on phospholipid and triglyceride fatty acid pattern, glucose metabolism, 86rubidium net uptake and insulin release in BRIN-BD11 cells.

Zhang Y, Crutzen R, Louchami K, Carpentier Y, Sener A, Malaisse W Endocrine. 2009; 35(3):438-48.

PMID: 19381889 DOI: 10.1007/s12020-009-9169-z.

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