Abstract
Troponin I (TnI) is the inhibitory component of troponin, the ternary complex that regulates skeletal and cardiac muscle contraction. Previous work showed that the C-terminal region of TnI, when linked to the "inhibitory region" (residues 98-116), possesses the major regulatory functions of the molecule (Farah, C. S., Miyamoto, C. A., Ramos, C. H. I., Silva, A. C. R., Quaggio, R. B., Fujimori, K., Smillie, L. B., and Reinach, F. C. (1994) J. Biol. Chem. 269, 5230-5240). To investigate these functions in more detail, serial deletion mutants of the C-terminal region of TnI were constructed. These experiments showed that longer C-terminal deletions result in lower inhibition of the actomyosin ATPase activity and weaken the interaction with the N-terminal domain of troponin C (TnC), consistent with the antiparallel model for the interaction between these two proteins. The conclusion is that the whole C-terminal region of TnI is necessary for its full regulatory activity. The region between residues 137 and 144, which was shown to have homology with residues 108-115 in the inhibitory region (Farah, C. S., and Reinach, F. C. (1995) FASEB J. 9, 755-767), is involved in the binding to TnC. The region between residues 98 and 129 is involved in modulating the affinity of TnC for calcium. The C-terminal residues 166-182 are involved in the binding of TnI to thin filament. A model for the function of TnI is discussed.
Highlights
The binding of Ca2ϩ to the troponin complex initiates muscle contraction [1,2,3,4,5]
The troponin complex is composed of three subunits: troponin I (TnI),1 troponin C (TnC), and troponin T (TnT) [6]
Models suggest that TnI domains movement from TnC to thin filament are involved in the regulation of muscle contraction
Summary
Troponin; TM, tropomyosin; WT, wild-type; DTT, dithiothreitol; MOPS, 4-morpholinepropanesulfonic acid. The C-terminal region is involved in both the TnC-TnI and actin-TnI interactions These interactions are responsible for both the calcium regulation of the inhibitory action of TnI and the maintenance of TnI inhibition in the presence of TnC and in the absence of Ca2ϩ [10]. At this time, little is known about the TnI structure, even though information from low resolution structures is available [12, 13] and part of its N-terminal region of TnI (residues 1– 47) has been crystallized in a complex with TnC [14].
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