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Integrins protect cardiomyocytes from ischemia/reperfusion injury
- Okada, Hideshi;
- Lai, N Chin;
- Kawaraguchi, Yoshitaka;
- Liao, Peter;
- Copps, Jeffrey;
- Sugano, Yasuo;
- Okada-Maeda, Sunaho;
- Banerjee, Indroneal;
- Schilling, Jan M;
- Gingras, Alexandre R;
- Asfaw, Elizabeth K;
- Suarez, Jorge;
- Kang, Seok-Min;
- Perkins, Guy A;
- Au, Carol G;
- Israeli-Rosenberg, Sharon;
- Manso, Ana Maria;
- Liu, Zheng;
- Milner, Derek J;
- Kaufman, Stephen J;
- Patel, Hemal H;
- Roth, David M;
- Hammond, H Kirk;
- Taylor, Susan S;
- Dillmann, Wolfgang H;
- Goldhaber, Joshua I;
- Ross, Robert S
- et al.
Published Web Location
https://doi.org/10.1172/jci64216Abstract
Ischemic damage is recognized to cause cardiomyocyte (CM) death and myocardial dysfunction, but the role of cell-matrix interactions and integrins in this process has not been extensively studied. Expression of α7β1D integrin, the dominant integrin in normal adult CMs, increases during ischemia/reperfusion (I/R), while deficiency of β1 integrins increases ischemic damage. We hypothesized that the forced overexpression of integrins on the CM would offer protection from I/R injury. Tg mice with CM-specific overexpression of integrin α7β1D exposed to I/R had a substantial reduction in infarct size compared with that of α5β1D-overexpressing mice and WT littermate controls. Using isolated CMs, we found that α7β1D preserved mitochondrial membrane potential during hypoxia/reoxygenation (H/R) injury via inhibition of mitochondrial Ca2+ overload but did not alter H/R effects on oxidative stress. Therefore, we assessed Ca2+ handling proteins in the CM and found that β1D integrin colocalized with ryanodine receptor 2 (RyR2) in CM T-tubules, complexed with RyR2 in human and rat heart, and specifically bound to RyR2 amino acids 165-175. Integrins stabilized the RyR2 interdomain interaction, and this stabilization required integrin receptor binding to its ECM ligand. These data suggest that α7β1D integrin modifies Ca2+ regulatory pathways and offers a means to protect the myocardium from ischemic injury.
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