Glutathione synthesis in the mouse liver supports lipid abundance through NRF2 repression.
Gloria AsantewaaEmily T TuttleNathan P WardYun Pyo KangYumi KimMadeline E KavanaghNomeda GirniusYing ChenKatherine RodriguezFabio HechtMarco ZocchiLeonid Smorodintsev-SchillerTashJaé Q ScalesKira TaylorFatemeh AlimohammadiRenae P DuncanZachary R SechristDiana Agostini-VulajXenia L SchaferHayley ChangZachary R SmithThomas N O'ConnorSarah WhelanLaura M SelforsJett CrowdisG Kenneth GrayRoderick T BronsonDirk BrennerAlessandro RufiniRobert T DirksenAram F HezelAaron R HuberJoshua C MungerBenjamin F CravattVasilis VasiliouCalvin L ColeGina M DeNicolaIsaac S HarrisPublished in: Nature communications (2024)
Cells rely on antioxidants to survive. The most abundant antioxidant is glutathione (GSH). The synthesis of GSH is non-redundantly controlled by the glutamate-cysteine ligase catalytic subunit (GCLC). GSH imbalance is implicated in many diseases, but the requirement for GSH in adult tissues is unclear. To interrogate this, we have developed a series of in vivo models to induce Gclc deletion in adult animals. We find that GSH is essential to lipid abundance in vivo. GSH levels are highest in liver tissue, which is also a hub for lipid production. While the loss of GSH does not cause liver failure, it decreases lipogenic enzyme expression, circulating triglyceride levels, and fat stores. Mechanistically, we find that GSH promotes lipid abundance by repressing NRF2, a transcription factor induced by oxidative stress. These studies identify GSH as a fulcrum in the liver's balance of redox buffering and triglyceride production.