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Abstract
Proline dehydrogenase (oxidase, PRODH/POX), the first enzyme in the pathway of proline catabolism, has been identified as a mitochondrial, metabolic tumor suppressor, which is downregulated in a variety of human tumors. However, our recent findings show that PRODH/POX is upregulated by hypoxia in vitro and in vivo. The combination of low glucose and hypoxia produces additive effects on PRODH/POX expression. Both hypoxia and glucose depletion enhance PRODH/POX expression through AMP-activated protein kinase (AMPK) activation to promote tumor cell survival. Nevertheless, the mechanisms underlying PRODH/POX prosurvival functions are different for hypoxia and low-glucose conditions. Glucose depletion with or without hypoxia elevates PRODH/POX and proline utilization to supply ATP for cellular energy needs. Interestingly, under hypoxia PRODH/POX induces protective autophagy by generating reactive oxygen species (ROS). AMPK is the main initiator of stress-triggered autophagy. Thus, PRODH/POX acts as a downstream effector of AMPK in the activation of autophagy under hypoxia. This regulation was confirmed to be independent of the mechanistic target of rapamycin (MTOR) pathway, a major downstream target of AMPK signaling.