己糖激酶 II 与再灌注损伤：TAT-HK2 肽可损害 Langendorff 灌流大鼠心脏的血管功能。

Hexokinase II and reperfusion injury: TAT-HK2 peptide impairs vascular function in Langendorff-perfused rat hearts.

机构信息

School of Biochemistry and the Bristol Heart Institute, University of Bristol, Bristol, UK.

出版信息

Circ Res. 2013 Jan 18;112(2):e3-7. doi: 10.1161/CIRCRESAHA.112.274233.

DOI:10.1161/CIRCRESAHA.112.274233

PMID:23329796

Abstract

RATIONALE

Mitochondrial-bound hexokinase II (HK2) was recently proposed to play a crucial role in the normal functioning of the beating heart and to be necessary to maintain mitochondrial membrane potential. However, our own studies confirmed that mitochondria from ischemic rat hearts were HK2-depleted, yet showed no indication of depolarization and responded normally to ADP.

OBJECTIVE

To establish whether the human TAT-HK2 peptide used to dissociate mitochondrial-bound HKII in the Langendorff-perfused heart may exert its effects indirectly by impairing coronary function.

METHODS AND RESULTS

Ischemic preconditioning was blocked in rat hearts perfused with 2.5 µmol/L TAT-HK2 before ischemia or at the onset of reperfusion. However, TAT-HK2 also decreased the phosphocreatine:ATP ratio that correlated with reduced rate pressure product and increased diastolic pressure. These effects were preceded by increased aortic pressure (Langendorff constant flow) or decreased coronary flow (Langendorff constant pressure), which was also observed, albeit less pronounced, at 200 nmol/L TAT-HK2 and was prevented by coperfusion with the NO-donor diethylamine NONOate. Mitochondria from TAT-HK2-perfused hearts showed no loss of bound HK2, unlike mitochondria from ischemic hearts where the expected loss was prevented by ischemic preconditioning.

CONCLUSIONS

In the perfused rat heart, TAT-HK2 should be used with caution and careful attention to dosage because some of its effects may be mediated by vasoconstriction of the coronary vasculature rather than dissociation of HK2 from myocyte mitochondria.

摘要

原理

最近提出线粒体结合的己糖激酶 II（HK2）在跳动心脏的正常功能中起关键作用，并且是维持线粒体膜电位所必需的。然而，我们自己的研究证实，缺血大鼠心脏的线粒体 HK2 耗尽，但没有去极化的迹象，并对 ADP 正常反应。

目的

确定用于分离 Langendorff 灌流心脏中线粒体结合的 HK2 的 TAT-HK2 肽是否可能通过损害冠脉功能而间接地发挥其作用。

方法和结果

在用 2.5 µmol/L TAT-HK2 进行缺血预处理之前或再灌注开始时对大鼠心脏进行预处理，阻断了缺血预处理。然而，TAT-HK2 还降低了磷酸肌酸：ATP 比值，与降低的压力-速率乘积和增加的舒张压力相关。这些作用之前伴随着主动脉压（Langendorff 恒定流量）增加或冠脉流量减少（Langendorff 恒定压力），在 200 nmol/L TAT-HK2 时也观察到这种情况，尽管不太明显，并且可以通过共灌注 NO 供体二乙胺 NONOate 来预防。与缺血心脏中预期的丢失被缺血预处理所阻止不同，TAT-HK2 灌注的心脏线粒体没有失去结合的 HK2。

结论

在灌流的大鼠心脏中，应该谨慎使用 TAT-HK2 并注意剂量，因为其某些作用可能是通过冠脉血管收缩介导的，而不是 HK2 从心肌线粒体中解离。

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Hexokinase II and reperfusion injury: TAT-HK2 peptide impairs vascular function in Langendorff-perfused rat hearts.己糖激酶 II 与再灌注损伤：TAT-HK2 肽可损害 Langendorff 灌流大鼠心脏的血管功能。

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己糖激酶 II 与再灌注损伤：TAT-HK2 肽可损害 Langendorff 灌流大鼠心脏的血管功能。

Hexokinase II and reperfusion injury: TAT-HK2 peptide impairs vascular function in Langendorff-perfused rat hearts.

机构信息

出版信息

RATIONALE

OBJECTIVE

METHODS AND RESULTS

CONCLUSIONS

原理

目的

方法和结果

结论

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