Exogenous Alpha-Ketoglutaric Acid Alleviates the Rabbit Dermal Papilla Cell Oxidative Damage Caused by Hydrogen Peroxide Through the ERK/Nrf2 Signaling Pathway.

As an endogenous metabolite, α-ketoglutarate (AKG) exhibits potent antioxidant properties, yet its molecular mechanisms remain unclear. Dermal Papilla Cells (DPCs), functioning as the regulatory hub of hair follicle morphogenesis, serve as a pivotal model system for deciphering follicular functionality and regeneration mechanisms through their orchestration of signaling networks. Using a hydrogen peroxide (HO)-induced oxidative stress model in DPCs, we investigated AKG's protective effects. AKG attenuated HO-triggered reactive oxygen species (ROS) overproduction, restored mitochondrial membrane potential, and suppressed apoptosis-related protein dysregulation. It enhanced cellular stress resistance by increasing the Bcl-2/Bax ratio, boosting antioxidant levels, and inhibiting inflammation. Mechanistically, HO activated the Nrf2 pathway, while AKG amplified Nrf2 nuclear translocation and expression. Crucially, ERK inhibition abrogated AKG-mediated Nrf2 regulation, intensifying ROS accumulation and cell death. These results identify the ERK/Nrf2 axis as central to AKG's antioxidative cytoprotection. This study advances AKG's therapeutic potential and deepens insights into its multifunctional roles.