T Sorsa, P Pollesello, P Permi, T Drakenberg, I Kilpeläinen
Structural Biology, Drug Discovery Technologies, Orion Pharma, P.O. Box 65, 02101 Espoo, Finland.
Journal of molecular and cellular cardiology 2003 SepThe interaction between troponin C (TnC) and troponin I (TnI) is essential for the regulation of muscle contraction. There are several binding sites for TnI on TnC that are differentially occupied depending on the phase of the contraction/relaxation cycle. TnI and TnC interact in an antiparallel fashion with each other. The C-domain of cTnC and the N-domain region of cTnI(residues 33-70) always interact under physiological conditions, whereas the interaction between regulatory regions of TnC and TnI (residues 128-166) is calcium dependent. Previously, it has been shown that levosimendan, a calcium sensitizer used as a treatment for acute heart failure, can interact with both domains of isolated cTnC. To understand which interaction is relevant for the mechanism of calcium sensitization, we used a more complete troponin model obtained by complexing cTnI(32-79) and cTnI(128-180) with calcium-saturated cTnC(CS). The cTnI peptides bound to cTnC(CS) to form a 1:1:1 complex. The interaction of levosimendan with this complex was followed by 1H-(15)N heteronuclear correlation spectroscopy. It was clear that based on chemical shift changes, cTnI(32-79) blocked the levosimendan interaction sites on the C-domain, whereas cTnI(128-180) did not compete with levosimendan for the binding site on the N-domain. Hence, the effective binding site of levosimendan on cTnC resulting in the calcium-sensitizing effect is located in the regulatory domain (N-domain).
T Sorsa, P Pollesello, P Permi, T Drakenberg, I Kilpeläinen. Interaction of levosimendan with cardiac troponin C in the presence of cardiac troponin I peptides. Journal of molecular and cellular cardiology. 2003 Sep;35(9):1055-61
PMID: 12967628
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