Yi Tao scite author profile

Yi Tao

2Publications

270Citation Statements Received

96Citation Statements Given

How they've been cited

348

253

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Affiliations

Southeast University, Vanderbilt University, Experimental Center of Tropical Forestry

Publications

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Oxidative Stress Regulates Left Ventricular PDE5 Expression in the Failing Heart

et al. 2010

Circulation

153

130

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Background-Phosphodiesterase type 5 (PDE5) inhibition has been shown to exert profound beneficial effects in the failing heart, suggesting a significant role for PDE5 in the development of congestive heart failure (CHF). The purpose of this study is to test the hypothesis that oxidative stress causes increased PDE5 expression in cardiac myocytes and that increased PDE5 contributes to the development of CHF. Methods and Results-Myocardial PDE5 expression and cellular distribution were determined in left ventricular samples from patients with end-stage CHF and normal donors and from mice after transverse aortic constriction (TAC)-induced CHF. Compared with donor human hearts, myocardial PDE5 protein was increased Ϸ4.5-fold in CHF samples, and the increase of myocardial PDE5 expression was significantly correlated with myocardial oxidative stress markers 3Ј-nitrotyrosine or 4-hydroxynonenal expression (PϽ0.05). Histological examination demonstrated that PDE5 was mainly expressed in vascular smooth muscle in normal donor hearts, but its expression was increased in both cardiac myocytes and vascular smooth muscle of CHF hearts. Myocardial PDE5 protein content and activity also increased in mice after TAC-induced CHF (PϽ0.05). When the superoxide dismutase (SOD) mimetic M40401 was administered to attenuate oxidative stress, the increased PDE5 protein and activity caused by TAC was blunted, and the hearts were protected against left ventricular hypertrophy and CHF. Conversely, increased myocardial oxidative stress in superoxide dismutase 3 knockout mice caused a greater increase of PDE5 expression and CHF after TAC. In addition, administration of sildenafil to inhibit PDE5 attenuated TAC-induced myocardial oxidative stress, PDE5 expression, and CHF. Conclusions-Myocardial oxidative stress increases PDE5 expression in the failing heart. Reducing oxidative stress by treatment with M40401 attenuated cardiomyocyte PDE5 expression. This and selective inhibition of PDE5 protected the heart against pressure overload-induced left ventricular hypertrophy and CHF. (Circulation. 2010;121:1474-1483.)Key Words: heart failure Ⅲ oxidative stress Ⅲ cyclic nucleotide phosphodiesterases, type 5 C ongestive heart failure (CHF) is the leading cause of mortality in developed countries and continues to increase in prevalence. Phosphodiesterase type 5 (PDE5) selectively hydrolyzes cyclic 3Ј,5Ј-guanosine monophosphate (cGMP), and selective inhibition of PDE5 can increase cGMP bioavailability. It is generally believed that PDE5 is not present in normal cardiac myocytes, so that selective PDE5 inhibition has no direct inotropic effect in normal hearts. 1 However, recent work by Kass et al demonstrated that selective inhibition of PDE5 with sildenafil markedly attenuated the left ventricular (LV) hypertrophy and dysfunction produced by chronic pressure overload secondary to transverse aortic constriction (TAC) in mice. 2 Thus PDE5 inhibition has also been reported to attenuate myocardial infarctinduced LV remodeling 3 and LV hypertrophy produc...

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PGC-1α Regulates Expression of Myocardial Mitochondrial Antioxidants and Myocardial Oxidative Stress After Chronic Systolic Overload

et al. 2010

Antioxidants & Redox Signaling

195

123

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Mitochondria are a principal site for generation of reactive oxygen species (ROS) in the heart. Peroxisome proliferator activated receptor g coactivator 1a (PGC-1a) plays an important role in regulating mitochondrial biogenesis and myocardial metabolism, but whether PGC-1a can simultaneously upregulate myocardial mitochondrial antioxidants has not been studied. In the present study, we examined the effect of PGC-1a deficiency (PGC-1a -=-) on oxidative stress and expression of a group of mitochondrial antioxidants in normal hearts and in hearts exposed to chronic systolic pressure overload produced by transverse aortic constriction (TAC). We found that PGC-1a -=-caused moderate but significant decreases of myocardial mitochondrial antioxidant enzymes such as SOD2, and thioredoxin (Trx2), but had no effect on expression of myocardial oxidative stress markers and left ventricular (LV) function under basal conditions. However, in response to TAC for 6 weeks, PGC-1a -=-mice showed greater increases of myocardial oxidative stress markers 3'-nitrotyrosine and 4-hydroxynonenal, more severe LV hypertrophy and dilatation, pulmonary congestion, and a greater reduction of LV fractional shortening and dP=dt max than did wild-type hearts. SOD mimetic MnTMPyP treatment (6 mg=kg=day) significantly attenuated TAC-induced LV hypertrophy and dysfunction in PGC-1a -=-mice. These data indicate that PGC-1a plays an important role in regulating expression of myocardial mitochondrial antioxidants SOD2 and Trx2 and in protecting hearts against TAC-induced myocardial oxidative stress, hypertrophy, and dysfunction. Antioxid.

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Yi Tao

Oxidative Stress Regulates Left Ventricular PDE5 Expression in the Failing Heart

PGC-1α Regulates Expression of Myocardial Mitochondrial Antioxidants and Myocardial Oxidative Stress After Chronic Systolic Overload

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