Abstract

Cytochrome c is one of the key proteins involved in the programmed cell death, and lysine 72 is known to be required for its apoptogenic activity. We have engineered a number of horse and murine cytochrome c single-point mutants with various substitutions at position 72 and compared quantitatively their proapoptotic activity in living cells. Apoptosis was activated by transferring exogenous cytochrome c into the cytoplasm of cells via a nontraumatic electroporation procedure. All mutant proteins studied exhibited significantly reduced proapoptotic activities in comparison with those for the wild type cytochromes. Relative activity of the horse (h(K72X)) and murine (m(K72W)) mutant proteins diminished in the order: h(K72R) > h(K72G) > h(K72A) > h(K72E) > h(K72L) >> h(K72W) > m(K72W). As estimated, the horse and murine K72W mutants were at least 200- and 500-fold less active than corresponding wild type proteins. Thus, the K72W-substituted cytochrome c can serve as an adequate candidate for knock-in studies of cytochrome c-mediated apoptosis. The proapoptotic activity of wild-type cytochrome c from different species in murine monocytic WEHI-3 cells reduced in the order: murine cytochrome c > human cytochrome c approximately horse cytochrome c, thus indicating that apoptotic effect of cytochrome c depends on the species compatibility.

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