Abstract Title:

Tanshinone IIA protects against sudden cardiac death induced by lethal arrhythmias via repression of microRNA-1.

Abstract Source:

Br J Pharmacol. 2009 Nov;158(5):1227-35. Epub 2009 Sep 23. PMID: 19775284

Abstract Author(s):

Hongli Shan, Xuelian Li, Zhenwei Pan, Li Zhang, Benzhi Cai, Yong Zhang, Chaoqian Xu, Wenfeng Chu, Guofen Qiao, Baoxin Li, Yanjie Lu, Baofeng Yang


BACKGROUND AND PURPOSE: Tanshinone IIA is an active component of a traditional Chinese medicine based on Salvia miltiorrhiza, which reduces sudden cardiac death by suppressing ischaemic arrhythmias. However, the mechanisms underlying the anti-arrhythmic effects remain unclear. EXPERIMENTAL APPROACH: A model of myocardial infarction (MI) in rats by ligating the left anterior descending coronary artery was used. Tanshinone IIA or quinidine was given daily, before (7 days) and after (3 months) MI; cardiac electrical activity was monitored by ECG recording. Whole-cell patch-clamp techniques were used to measure the inward rectifying K(+) current (I(K1)) in rat isolated ventricular myocytes. Kir2.1 and serum response factor (SRF) levels were analysed by Western blot and microRNA-1 (miR-1) level was determined by real-time RT-PCR. KEY RESULTS: Tanshinone IIA decreased the incidence of arrhythmias induced by acute cardiac ischaemia and mortality in rats 3 months after MI. Tanshinone IIA restored the diminished I(K1) current density and Kir2.1 protein after MI in rat ventricular myocytes, while quinidine further inhibited I(K1)/Kir2.1. MiR-1 was up-regulated in MI, possibly due to the concomitant increase in SRF, a transcriptional activator of the miR-1 gene, accounting for decreased Kir2.1. Treatment with tanshinone IIA prevented increased SRF and hence increased miR-1 post-MI, whereas quinidine did not. CONCLUSIONS AND IMPLICATIONS: Down-regulation of miR-1 and consequent recovery of Kir2.1 may account partially for the efficacy of tanshinone IIA in suppressing ischaemic arrhythmias and cardiac mortality. These finding support the proposal that miR-1 could be a potential therapeutic target for the prevention of ischaemic arrhythmias.

Study Type : Animal Study

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