A Soluble Form of the Pilus Protein FimA Targets the VDAC-Hexokinase Complex at Mitochondria to Suppress Host Cell Apoptosis

Abstract

Inhibition of apoptotic response of host cells during an early phase of infection is a strategy used by many enteroinvasive bacterial pathogens to enhance their survival. Here, we report the identification of a soluble form of the pilus protein FimA from the culture supernatants of E. coli K1, Salmonella, and Shigella that can potently inhibit Bax-mediated release of cytochrome c from isolated mitochondria. Similar to the infected cells, HCT116 cells stably expressing FimA display a delay in the integration of Bax into outer mitochondrial membrane induced by apoptotic stimuli. FimA targets to mitochondria through binding to VDAC1, which is a prerequisite step for E. coli K1 to render the short-term blockade of apoptotic death in the host cells. Interestingly, FimA strengthens the VDAC1-hexokinase interaction and prevents dissociation of hexokinase from VDAC1 triggered by apoptotic stimuli. Together, these data thus reveal a paradigm of antiapoptosis mechanism undertaken by the enteroinvasive bacteria.