Mitochondria play important role in modulating metabolic responses of neutrophils during hypoxia. During hypoxic conditions, neutrophils synthesize enhanced mROS formation, which stabilizes HIF-1α, a transcriptional regulator that promotes oxygen delivery to hypoxic regions. This process relies on the G-3-P shuttle pathway. Modulation of glycolysis leading to increased flux through the G-3-P shuttle promotes enhanced mitochondrial membrane potential and mROS release during hypoxia. GPD2, the mitochondrial component of the G-3-P shuttle, is involved in promoting mROS synthesis, HIF-1α stabilization, and neutrophil survival during hypoxia. Professional illustration by Patrick Lane, ScEYEnce Studios.

Mitochondria play important role in modulating metabolic responses of neutrophils during hypoxia. During hypoxic conditions, neutrophils synthesize enhanced mROS formation, which stabilizes HIF-1α, a transcriptional regulator that promotes oxygen delivery to hypoxic regions. This process relies on the G-3-P shuttle pathway. Modulation of glycolysis leading to increased flux through the G-3-P shuttle promotes enhanced mitochondrial membrane potential and mROS release during hypoxia. GPD2, the mitochondrial component of the G-3-P shuttle, is involved in promoting mROS synthesis, HIF-1α stabilization, and neutrophil survival during hypoxia. Professional illustration by Patrick Lane, ScEYEnce Studios.

Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal