Zhenyun Shen scite author profile

Zhenyun Shen

2Publications

83Citation Statements Received

95Citation Statements Given

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Aviation General Hospital, Peking University Third Hospital

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Ischemic preconditioning‐induced cardioprotection is lost in mice with immunoproteasome subunit low molecular mass polypeptide‐2 deficiency

Cai

Shen²,

Kaer³

et al. 2008

FASEB j.

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The ubiquitin-proteasome system plays an important role in many cellular processes through degradation of specific proteins. Low molecular mass polypeptide 2 (LMP-2 or beta(1i)) is one important subunit of the immunoproteasome. Ischemic preconditioning (IPC) activates cell signaling pathways and generates cardioprotection but has not been linked to LMP-2 function previously. LMP-2 knockout mice (C57BL6 background) and wild-type C57BL6 mice were subjected to 30 min of ischemia (I-30) and 120 min of reperfusion (R-120) with or without preceding IPC (10 min of infusion and 5 min of reperfusion). IPC significantly increased left ventricular developed pressure and decreased infarct size in wild-type mice, but this protective effect of IPC was lost in LMP-2 knockout mice. IPC-mediated degradation of phosphatase and tensin homologue deleted on chromosome 10 (PTEN) and activation of the downstream protein kinase Akt were impaired in LMP-2 knockout hearts. The impairment of PTEN degradation was associated with defective immunoproteasomes and decreased proteolytic activities. When LMP-2 knockout mice were pretreated with the PTEN inhibitor bpV(HOpic), cardiac function was significantly improved, and myocardial infarct size was significantly reduced after I-30/R-120. In conclusion, LMP-2 is required for normal proteasomal function and IPC induction in the heart. Its action may be related to PTEN protein degradation.

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PTEN inhibitors cause a negative inotropic and chronotropic effect in mice

Shen

Wesley

et al. 2011

European Journal of Pharmacology

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Inactivation of phosphatase and tensin homologue deleted on chromosome ten (PTEN) decreases cardiac contractility under basal conditions and induces cardioprotection against ischemia-reperfusion injury. However, the pharmacological effect of PTEN inhibitors on cardiac contractility has not been studied before. In the present study, we investigated the hypothesis that PTEN inhibition decreases cardiac contractility in mice. We first exposed isolated mouse hearts to the PTEN inhibitor bpV(phen) (40 μM), the phosphoinositide-3 kinase inhibitor wortmannin (1 μM), and the PTEN-resistant PIP3 analog 3-phosphorothioate-PtdIns(3,4,5)P3 (3-PT-PTP, 0.5 μM) for 10 min. Left ventricular pressure was measured by a Mikro-tip pressure catheter. We then inhibited PTEN in mice by intra-peritoneal injection of VO-OHpic (10 μg/kg) 30 min before ischemia and then exposed them to 30 min of ischemia and 120 min of reperfusion. At the end of the experiments, hearts were isolated for measurement of myocardial infarct size by 1.5 % triphenyltetrazolium chloride. Left ventricular systolic pressure and heart rate were significantly decreased by bpV(phen). Consistent with the result, the maximal rate of left ventricular pressure increase or decrease was significantly decreased by bpV(phen). 3-PT-PIP3 mimicked the effect of bpV(phen), and the opposite effect on cardiac contractility was seen with wortmannin. Moreover, inhibition of PTEN in vivo by VO-OHpic decreased left ventricular systolic pressure and heart rate before ischemia, but resulted in an increase in cardiac functional recovery and a decrease in myocardial infarct size after ischemia-reperfusion. In conclusion, PTEN inhibition causes a negative inotropic and chronotropic effect while inducing cardioprotection against ischemia-reperfusion injury.

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Zhenyun Shen

Ischemic preconditioning‐induced cardioprotection is lost in mice with immunoproteasome subunit low molecular mass polypeptide‐2 deficiency

PTEN inhibitors cause a negative inotropic and chronotropic effect in mice

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