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GROWTH, DIFFERENTIATION, AND APOPTOSIS

Role of calreticulin in the sensitivity of myocardiac H9c2 cells to oxidative stress caused by hydrogen peroxide

¹Department of Biochemistry and Molecular Biology in Disease, Atomic Bomb Disease Institute, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki; and ²Core Research for Evolutional Science and Technology, Japan Science & Technology Agency, Kawaguchi, Japan

Submitted 22 February 2005 ; accepted in final form 29 August 2005

Calreticulin (CRT), a Ca²⁺-binding molecular chaperone in the endoplasmic reticulum, plays a vital role in cardiac physiology and pathology. Oxidative stress is a main cause of myocardiac apoptosis in the ischemic heart, but the function of CRT under oxidative stress is not fully understood. In the present study, the effect of overexpression of CRT on susceptibility to apoptosis under oxidative stress was examined using myocardiac H9c2 cells transfected with the CRT gene. Under oxidative stress due to H₂O₂, the CRT-overexpressing cells were highly susceptible to apoptosis compared with controls. In the overexpressing cells, the levels of cytoplasmic free Ca²⁺ ([Ca²⁺]_i) were significantly increased by H₂O₂, whereas in controls, only a slight increase was observed. The H₂O₂-induced apoptosis was enhanced by the increase in [Ca²⁺]_i caused by thapsigargin in control cells but was suppressed by BAPTA-AM, a cell-permeable Ca²⁺ chelator in the CRT-overexpressing cells, indicating the importance of the level of [Ca²⁺]_i in the sensitivity to H₂O₂-induced apoptosis. Suppression of CRT by the introduction of the antisense cDNA of CRT enhanced cytoprotection against oxidative stress compared with controls. Furthermore, we found that the levels of activity of calpain and caspase-12 were elevated through the regulation of [Ca²⁺]_i in the CRT-overexpressing cells treated with H₂O₂ compared with controls. Thus we conclude that the level of CRT regulates the sensitivity to apoptosis under oxidative stress due to H₂O₂ through a change in Ca²⁺ homeostasis and the regulation of the Ca²⁺-calpain-caspase-12 pathway in myocardiac cells.

apoptosis; calcium; endoplasmic reticulum

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