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TAK1 Regulates Myocardial Response to Pathological Stress via NFAT, NF?B, and Bnip3 Pathways.


ABSTRACT: TAK1 (TGF?-activated kinase-1) signaling is essential in regulating a number of important biological functions, including innate immunity, inflammatory response, cell growth and differentiation, and myocardial homeostasis. The precise role of TAK1 in the adult heart under pathological conditions remains largely unknown. Importantly, we observed that TAK1 is upregulated during compensatory hypertrophy but downregulated in end-stage heart failure. Here we generated transgenic mice with inducible expression of an active TAK1 mutant (TAK1?N) in the adult heart. TAK1?N transgenic mice developed greater cardiac hypertrophy compared with control mice after transverse aortic constriction (TAC), which was largely blocked by ablation of calcineurin A?. Expression of TAK1?N also promoted NFAT (nuclear factor of activated T-cells) transcriptional activity in luciferase reporter mice at baseline, which was further enhanced after TAC. Our results revealed that activation of TAK1 promoted adaptive cardiac hypertrophy through a cross-talk between calcineurin-NFAT and IKK-NF?B pathways. More significantly, adult-onset inducible expression of TAK1?N protected the myocardium from adverse remodeling and heart failure after myocardial infarction or long-term pressure overload, by preventing cardiac cell death and fibrosis. Mechanistically, TAK1 exerts its cardioprotective effect through activation of NFAT/NF?B, downregulation of Bnip3, and inhibition of cardiac cell death.

SUBMITTER: Li L 

PROVIDER: S-EPMC4643217 | biostudies-other | 2015 Nov

REPOSITORIES: biostudies-other

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TAK1 Regulates Myocardial Response to Pathological Stress via NFAT, NFκB, and Bnip3 Pathways.

Li Lei L   Chen Yi Y   Li Jing J   Yin Haifeng H   Guo Xiaoyun X   Doan Jessica J   Molkentin Jeffery D JD   Liu Qinghang Q  

Scientific reports 20151113


TAK1 (TGFβ-activated kinase-1) signaling is essential in regulating a number of important biological functions, including innate immunity, inflammatory response, cell growth and differentiation, and myocardial homeostasis. The precise role of TAK1 in the adult heart under pathological conditions remains largely unknown. Importantly, we observed that TAK1 is upregulated during compensatory hypertrophy but downregulated in end-stage heart failure. Here we generated transgenic mice with inducible e  ...[more]

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