期刊
BIOCHEMISTRY
卷 45, 期 38, 页码 11681-11694出版社
AMER CHEMICAL SOC
DOI: 10.1021/bi060273s
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资金
- NHLBI NIH HHS [HL078773, R01 HL078773-02, R01 HL078773, R01 HL078773-03] Funding Source: Medline
- NIAMS NIH HHS [R01 AR048816, AR048816, R01 AR048816-06] Funding Source: Medline
- NICHD NIH HHS [R21 HD044824, HD044824] Funding Source: Medline
The structure of the NH2-terminal region of troponin T (TnT) is hypervariable among the muscle type-specific isoforms and is also regulated by alternative RNA splicing. This region does not contain binding sites for other thin filament proteins, but alteration of its structure affects the Ca2+ regulation of muscle contraction. Here we report a truncated cardiac TnT produced during myocardial ischemia reperfusion. Amino acid sequencing and protein fragment reconstruction determined that it is generated by a posttranslational modification selectively removing the NH2-terminal variable region and preserving the conserved core structure of TnT. Triton X-100 extraction of cardiac muscle fibers promoted production of the NH2-terminal truncated cardiac TnT (cTnT-ND), indicating a myofibril-associated proteolytic activity. mu-Calpain is a myofibril-associated protease and is known to degrade TnT. Supporting a role of mu-calpain in producing cTnT-ND in myocardial ischemia reperfusion, calpain inhibitors decreased the level of cTnT-ND in Triton-extracted myofibrils. mu-Calpain treatment of the cardiac myofibril and troponin complex specifically reproduced cTnT-ND. In contrast, mu-calpain treatment of isolated cardiac TnT resulted in nonspecific degradation, suggesting that this structural modification is relevant to physiological structures of the myofilament. Triton X-100 treatment of transgenic mouse cardiac myofibrils overexpressing fast skeletal muscle TnT produced similar NH2-terminal truncations of the endogenous and exogenous TnT, despite different amino acid sequences at the cleavage site. With the functional consequences of removing the NH2-terminal variable region of TnT, the mu-calpain-mediated proteolytic modification of TnT may act as an acute mechanism to adjust muscle contractility under stress conditions.
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