Mechanisms of Control of the Free Ca2+ Concentration in the Endoplasmic Reticulum of Mouse Pancreatic β-Cells

Abstract

OBJECTIVE Sarco-endoplasmic reticulum Ca2+-ATPase 2b (SERCA2b) and SERCA3 pump Ca2+ in the endoplasmic reticulum (ER) of pancreatic β-cells. We studied their role in the control of the free ER Ca2+ concentration ([Ca2+]ER) and the role of SERCA3 in the control of insulin secretion and ER stress. RESEARCH DESIGN AND METHODS β-Cell [Ca2+]ER of SERCA3+/+ and SERCA3−/− mice was monitored with an adenovirus encoding the low Ca2+-affinity sensor D4 addressed to the ER (D4ER) under the control of the insulin promoter. Free cytosolic Ca2+ concentration ([Ca2+]c) and [Ca2+]ER were simultaneously recorded. Insulin secretion and mRNA levels of ER stress genes were studied. RESULTS Glucose elicited synchronized [Ca2+]ER and [Ca2+]c oscillations. [Ca2+]ER oscillations were smaller in SERCA3−/− than in SERCA3+/+ β-cells. Stimulating cell metabolism with various [glucose] in the presence of diazoxide induced a similar dose-dependent [Ca2+]ER rise in SERCA3+/+ and SERCA3−/− β-cells. In a Ca2+-free medium, glucose moderately raised [Ca2+]ER from a highly buffered cytosolic Ca2+ pool. Increasing [Ca2+]c with high [K] elicited a [Ca2+]ER rise that was larger but more transient in SERCA3+/+ than SERCA3−/− β-cells because of the activation of a Ca2+ release from the ER in SERCA3+/+ β-cells. Glucose-induced insulin release was larger in SERCA3−/− than SERCA3+/+ islets. SERCA3 ablation did not induce ER stress. CONCLUSIONS [Ca2+]c and [Ca2+]ER oscillate in phase in response to glucose. Upon [Ca2+]c increase, Ca2+ is taken up by SERCA2b and SERCA3. Strong Ca2+ influx triggers a Ca2+ release from the ER that depends on SERCA3. SERCA3 deficiency neither impairs Ca2+ uptake by the ER upon cell metabolism acceleration and insulin release nor induces ER stress.