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  • Cardiac-specific deletion of voltage dependent anion channel 2 leads to dilated cardiomyopathy by altering calcium homeostasis.

Cardiac-specific deletion of voltage dependent anion channel 2 leads to dilated cardiomyopathy by altering calcium homeostasis.

Nature communications (2021-07-30)
Thirupura S Shankar, Dinesh K A Ramadurai, Kira Steinhorst, Salah Sommakia, Rachit Badolia, Aspasia Thodou Krokidi, Dallen Calder, Sutip Navankasattusas, Paulina Sander, Oh Sung Kwon, Aishwarya Aravamudhan, Jing Ling, Andreas Dendorfer, Changmin Xie, Ohyun Kwon, Emily H Y Cheng, Kevin J Whitehead, Thomas Gudermann, Russel S Richardson, Frank B Sachse, Johann Schredelseker, Kenneth W Spitzer, Dipayan Chaudhuri, Stavros G Drakos
ABSTRACT

Voltage dependent anion channel 2 (VDAC2) is an outer mitochondrial membrane porin known to play a significant role in apoptosis and calcium signaling. Abnormalities in calcium homeostasis often leads to electrical and contractile dysfunction and can cause dilated cardiomyopathy and heart failure. However, the specific role of VDAC2 in intracellular calcium dynamics and cardiac function is not well understood. To elucidate the role of VDAC2 in calcium homeostasis, we generated a cardiac ventricular myocyte-specific developmental deletion of Vdac2 in mice. Our results indicate that loss of VDAC2 in the myocardium causes severe impairment in excitation-contraction coupling by altering both intracellular and mitochondrial calcium signaling. We also observed adverse cardiac remodeling which progressed to severe cardiomyopathy and death. Reintroduction of VDAC2 in 6-week-old knock-out mice partially rescued the cardiomyopathy phenotype. Activation of VDAC2 by efsevin increased cardiac contractile force in a mouse model of pressure-overload induced heart failure. In conclusion, our findings demonstrate that VDAC2 plays a crucial role in cardiac function by influencing cellular calcium signaling. Through this unique role in cellular calcium dynamics and excitation-contraction coupling VDAC2 emerges as a plausible therapeutic target for heart failure.

MATERIALS
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