Cytochrome c (Cc) is a protein that functions as an electron carrier in the mitochondrial respiratory chain. However, Cc has moonlighting roles outside mitochondria driving the transition of apoptotic cells from life to death. When living cells are damaged, Cc escapes its natural mitochondrial environment and, once in the cytosol, it binds other proteins to form a complex named the apoptosome-a platform that triggers caspase activation and further leads to controlled cell dismantlement. Early released Cc also binds to inositol 1,4,5-triphosphate receptors on the ER membrane, which stimulates further massive Cc release from mitochondria. Besides the well-characterized binding proteins contributing to the proapoptotic functions of Cc, many novel protein targets have been recently described. Among them, histone chaperones were identified as key partners of Cc following DNA breaks, indicating that Cc might modulate chromatin dynamics through competitive binding to histone chaperones. In this article, we review the ample set of recently discovered antiapoptotic proteins-involved in DNA damage, transcription, and energetic metabolism-reported to interact with Cc in the cytoplasm and even the nucleus upon DNA breaks.
Keywords: DNA damage response; apoptosis; apoptosome; caspase; chromatin dynamics; cytochrome c; double-strand break; histone chaperones; nuclear import; programmed cell death.
© 2019 Federation of European Biochemical Societies.