INTRODUCTION: Previously, we demonstrated that inhibition of poly(ADP-ribose) polymerase (PARP) exerts protective effects against high-fat (HF) diet-induced atherogenesis in part by increasing tissue inhibitor of metalloproteinase (TIMP)-2 expression. Given that characteristics of dilated cardiomyopathy closely associate with atherosclerosis and are mediated by an imbalance between matrix metalloproteinases (MMPs) and TIMPs, we hypothesized that PARP-1 gene deletion may protect against HF-induced cardiac hypertrophy and dilatations by altering TIMP-2/MMPs balance in favor of a maintenance of tissue homeostasis. METHODS AND RESULTS: Hemodynamic parameters determined by echocardiography were similar in ApoE(-/-) mice and PARP-1-deficient ApoE(-/-) mice (DKO) fed a regular diet (RD). However, histological analysis revealed that cardiomyocytes of ApoE(-/-) mice on RD were hypertrophied, displaying an enlarged cell body and nucleus, traits that were absent in DKO animals. HF diet-fed ApoE(-/-) mice exhibited increased interventricular septum, left ventricular (LV) internal dimension, LV volume, and LV mass in addition to a separation of myocardial fibers suggestive of dilated cardiomyopathy. PARP-1 gene deletion protected against these degenerative changes. MMP activity was dramatically increased in hearts of ApoE(-/-) mice on HF diet and was accompanied by increased collagen degradation, mast cell degranulation, and increased myocyte cell death. PARP-1 gene knockout was associated with increased TIMP-2 expression antagonizing, as a result, the damaging effects of active MMPs. CONCLUSIONS: The present study demonstrates that PARP-1 gene deletion exerts protective effects against HF diet-induced dilated cardiomyopathy by maintaining increased expression of TIMP-2. With additional protective effects against cell death and inflammation, PARP-1 deficiency preserves cardiac tissue homeostasis.
INTRODUCTION: Previously, we demonstrated that inhibition of poly(ADP-ribose) polymerase (PARP) exerts protective effects against high-fat (HF) diet-induced atherogenesis in part by increasing tissue inhibitor of metalloproteinase (TIMP)-2 expression. Given that characteristics of dilated cardiomyopathy closely associate with atherosclerosis and are mediated by an imbalance between matrix metalloproteinases (MMPs) and TIMPs, we hypothesized that PARP-1 gene deletion may protect against HF-induced cardiac hypertrophy and dilatations by altering TIMP-2/MMPs balance in favor of a maintenance of tissue homeostasis. METHODS AND RESULTS: Hemodynamic parameters determined by echocardiography were similar in ApoE(-/-) mice and PARP-1-deficient ApoE(-/-) mice (DKO) fed a regular diet (RD). However, histological analysis revealed that cardiomyocytes of ApoE(-/-) mice on RD were hypertrophied, displaying an enlarged cell body and nucleus, traits that were absent in DKO animals. HF diet-fed ApoE(-/-) mice exhibited increased interventricular septum, left ventricular (LV) internal dimension, LV volume, and LV mass in addition to a separation of myocardial fibers suggestive of dilated cardiomyopathy. PARP-1 gene deletion protected against these degenerative changes. MMP activity was dramatically increased in hearts of ApoE(-/-) mice on HF diet and was accompanied by increased collagen degradation, mast cell degranulation, and increased myocyte cell death. PARP-1 gene knockout was associated with increased TIMP-2 expression antagonizing, as a result, the damaging effects of active MMPs. CONCLUSIONS: The present study demonstrates that PARP-1 gene deletion exerts protective effects against HF diet-induced dilated cardiomyopathy by maintaining increased expression of TIMP-2. With additional protective effects against cell death and inflammation, PARP-1deficiency preserves cardiac tissue homeostasis.
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