F-ATP Synthase Inhibitory Factor 1 in Regulation of Mitochondria Permeability Transition Pore and Metabolic Reprogramming

Abstract

Mitochondrial permeability transition pore (PTP) plays an important role in mitochondrial physiology and cell fate. Emerging studies highlight PTP forms from F-ATP synthase, but whether F-ATP synthase inhibitory factor 1 (IF1) regulates the activity of PTP is basically unknown. We have recently demonstrated that IF1 interacts with p53-CyPD complex and promotes opening of the PTP, and IF1 is necessary for the formation of p53-CyPD complex. IF1, a natural inhibitor of F-ATP synthase, acts as a main driver of metabolic switch to a Warburg phenotype. In this Commentary, we intend to discuss that the PTP may act as an alternative mechanism through which IF1 regulates metabolic reprogramming. The PTP participates in physiological Ca2+/ROS homeostasis and cell fate depending on the open state. The PTP-regulatory role of IF1 provides a clue that IF1 participates in metabolic plasticity probably involving modulation of PTP activity.