An evolutionary perspective on the interplays between hydrogen sulfide and oxygen in cellular functions

Abstract

The physiological effects of the endogenously generated hydrogen sulfide (H₂S) have been extensively studied in recent years. This review summarized the role of H₂S in the origin of life and H₂S metabolism in organisms from bacteria to vertebrates, examined the relationship between H₂S and oxygen from an evolutionary perspective and emphasized the oxygen-dependent manner of H₂S signaling in various physiological and pathological processes. H₂S and oxygen are inextricably linked in various cellular functions. H₂S is involved in aerobic respiration and stimulates oxidative phosphorylation and ATP production within the cell. Besides, H₂S has protective effects on ischemia and reperfusion injury in several organs by acting as an oxygen sensor. Also, emerging evidence suggests the role of H₂S is in an oxygen-dependent manner. All these findings indicate the subtle relationship between H₂S and oxygen and further explain why H₂S, a toxic molecule thriving in an anoxia environment several billion years ago, still affects homeostasis today despite the very low content in the body.

Keywords: ATP; Evolution; H(2)S; Ischemia and reperfusion injury; Oxygen.