The R111C substitution in turkey cardiac troponin I lowered binding affinity to troponin T, potentially compensating for the increased affinity of a cardiomyopathy-related TnT splicing variant.
The R111C polymorphism in wild turkey cardiac troponin I lowers binding affinity to troponin T, suggesting a compensatory mechanism for dilated cardiomyopathy-related TnT mutations and a potential therapeutic target.
Cardiac muscle contraction is regulated by Ca(2+) through the troponin complex consisting of three subunits: troponin C (TnC), troponin T (TnT), and troponin I (TnI). We reported previously that the abnormal splicing of cardiac TnT in turkeys with dilated cardiomyopathy resulted in a greater binding affinity to TnI. In the present study, we characterized a polymorphism of cardiac TnI in the heart of wild turkeys. cDNA cloning and sequencing of the novel turkey cardiac TnI revealed a single amino acid substitution, R111C. Arg(111) in avian cardiac TnI corresponds to a Lys in mammals. This residue is conserved in cardiac and skeletal muscle TnIs across the vertebrate phylum, implying a functional importance. In the partial crystal structure of cardiac troponin, this amino acid resides in an alpha-helix that directly contacts with TnT. Structural modeling indicates that the substitution of Cys for Arg or Lys at this position would not disrupt the global structure of troponin. To evaluate the functional significance of the different size and charge between the Arg and Cys side chains, protein-binding assays using purified turkey cardiac TnI expressed in Escherichia coli were performed. The results show that the R111C substitution lowered binding affinity to TnT, which is potentially compensatory to the increased TnI-binding affinity of the cardiomyopathy-related cardiac TnT splicing variant. Therefore, the fixation of the cardiac TnI Cys(111) allele in the wild turkey population and the corresponding functional effect reflect an increased fitness value, suggesting a novel target for the treatment of TnT myopathies.
Biesiadecki et al. (Fri,) conducted a other in Dilated cardiomyopathy. R111C polymorphism in cardiac TnI vs. Wild-type (Arg/Lys at position 111) was evaluated on Binding affinity to TnT. The R111C substitution in turkey cardiac troponin I lowered binding affinity to troponin T, potentially compensating for the increased affinity of a cardiomyopathy-related TnT splicing variant.
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