Histone H2AX: The missing link in AIF-mediated caspase-independent programmed necrosis.

Caspase-independent programmed necrosis is a highly regulated cellular demise that displays morphological and biochemical necrotic hallmarks, such as an earlier permeability of the plasma membrane and lactate dehydrogenase (LDH) leakiness. This form of programmed cell death (PCD) is regulated by AIF, a FAD-dependent oxidoreductase, which is released from the mitochondria to the nucleus where it induces chromatin tcondensation and DNA fragmentation. Some years ago, it was established that the sequential activation of poly(ADP-ribose) polymerase- 1 (PARP-1), calpains and Bax regulates the mitochondrial AIF release associated to programmed necrosis. But, what happens when AIF is in the nucleus? How does this protein induce chromatinolysis and programmed necrosis? Recently, we have unraveled some of the mechanisms underlying the nuclear action of AIF in this type of caspase-independent cell death. Indeed, AIF plays a key role in programmed necrosis by its ability to organize a DNA-degrading complex with H2AX and Cyclophiline A (CypA). The AIF/H2AX link is indeed a critical event and explains the nuclear AIF apoptogenic action. In the present article, we outline the current knowledge on cell death by programmed necrosis and discuss the relevance of the AIF/H2AX/CypA DNA-degrading complex in the regulation of this original form of cell death.