雷帕霉素靶蛋白单倍不足可减轻成年斑马鱼的心肌病。

Haploinsufficiency of target of rapamycin attenuates cardiomyopathies in adult zebrafish.

机构信息

Department of Biochemistry and Molecular Biology, Mayo Clinic College of Medicine, Rochester, MN 55905, USA.

出版信息

Circ Res. 2011 Sep 2;109(6):658-69. doi: 10.1161/CIRCRESAHA.111.248260. Epub 2011 Jul 14.

DOI:10.1161/CIRCRESAHA.111.248260

PMID:21757652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3166359/

Abstract

RATIONALE

Although a cardioprotective function of target of rapamycin (TOR) signaling inhibition has been suggested by pharmacological studies using rapamycin, genetic evidences are still lacking. We explored adult zebrafish as a novel vertebrate model for dissecting signaling pathways in cardiomyopathy.

OBJECTIVE

We generated the second adult zebrafish cardiomyopathy model induced by doxorubicin. By genetically analyzing both the doxorubicin and our previous established anemia-induced cardiomyopathy models, we decipher the functions of TOR signaling in cardiomyopathies of different etiology.

METHODS AND RESULTS

Along the progression of both cardiomyopathy models, we detected dynamic TOR activity at different stages of pathogenesis as well as distinct effects of TOR signaling inhibition. Nevertheless, cardiac enlargement in both models can be effectively attenuated by inhibition of TOR signaling through short-term rapamycin treatment. To assess the long-term effects of TOR reduction, we used a zebrafish target of rapamycin (ztor) mutant identified from an insertional mutagenesis screen. We show that TOR haploinsufficiency in the ztor heterozygous fish improved cardiac function, prevented pathological remodeling events, and ultimately reduced mortality in both adult fish models of cardiomyopathy. Mechanistically, these cardioprotective effects are conveyed by the antihypertrophy, antiapoptosis, and proautophagy function of TOR signaling inhibition.

CONCLUSIONS

Our results prove adult zebrafish as a conserved novel vertebrate model for human cardiomyopathies. Moreover, we provide the first genetic evidence to demonstrate a long-term cardioprotective effect of TOR signaling inhibition on at least 2 cardiomyopathies of distinct etiology, despite dynamic TOR activities during their pathogenesis.

摘要

背景

尽管药理学研究使用雷帕霉素表明雷帕霉素靶蛋白（TOR）信号抑制具有心脏保护作用，但仍缺乏遗传证据。我们探索了成年斑马鱼作为一种新型脊椎动物模型，用于剖析心肌病中的信号通路。

目的

我们生成了第二种由阿霉素诱导的成年斑马鱼心肌病模型。通过对阿霉素和我们之前建立的贫血诱导的心肌病模型进行基因分析，我们阐明了 TOR 信号在不同病因心肌病中的作用。

方法和结果

在这两种心肌病模型的进展过程中，我们在发病机制的不同阶段检测到动态的 TOR 活性以及 TOR 信号抑制的不同影响。然而，通过短期雷帕霉素处理抑制 TOR 信号可以有效减轻这两种模型中的心脏扩大。为了评估 TOR 减少的长期影响，我们使用了从插入诱变筛选中鉴定出的斑马鱼 TOR（ztor）突变体。我们表明，ztor 杂合子鱼中的 TOR 单倍不足改善了心脏功能，预防了病理性重塑事件，并最终降低了两种成年心肌病模型的死亡率。从机制上讲，这些心脏保护作用是通过 TOR 信号抑制的抗肥大、抗凋亡和促进自噬功能来传递的。

结论

我们的研究结果证明成年斑马鱼是一种保守的新型人类心肌病的脊椎动物模型。此外，我们提供了第一个遗传证据，证明 TOR 信号抑制对至少两种不同病因的心肌病具有长期的心脏保护作用，尽管它们发病机制中 TOR 活性是动态的。

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