High glucose-induced ROS accumulation is a critical regulator of ERK1/2-Akt-tuberin-mTOR signalling in RGC-5 cells.

Hyperglycemia and oxidative stress are the primary stressors that elicit mitochondria specific cell stress in diabetes. Here we hypothesized that elevated level of ROS in high glucose (HG) environment, trigger mitochondrial stress by damaging mitochondrial DNA (mtDNA), altering inflammatory mediators, and neurodegenerative markers via stress signalling pathway in retinal ganglion cells (RGC-5). Mechanistically, our findings illustrated that the HG environment increases the ROS production in retinal cells leading to the disruption of antioxidant defence mechanism, and altering mitochondrial machinery such as an increase in loss of mitochondrial membrane potential (ΔΨm), increase in mitochondrial mass, and increase in mtDNA fragmentation. Furthermore, fragmented mtDNA escape from mitochondria into the cytosol, where it engaged with cyclic GMP-AMP synthase (cGAS) and stimulator of IFN gene (STING) phosphorylation and activate interferon regulatory factor 3 (IRF3) via ERK1/2-Akt-tuberin-mTOR dependent pathways. Our results further indicate that siRNA-mediated gene silencing of tuberin suppresses the strong downregulation of tuberin-mTOR-IRF3 activation. HG environment resulted in activation of IRF3, coinciding with the increased expression of inflammatory mediators and neurodegenerative markers. Pre-treatment of N-acetyl-l-cysteine (NAC) or ERK1/2 or phosphoinositide3-kinase (PI3-K)/Akt inhibitors in RGC-5 cells significantly reduced the HG-induced IRF3 expression and declined the expression of neurodegenerative markers. Collectively, our results demonstrates that HG-induced over production of ROS, disrupts the antioxidant defence mechanism and mitochondrial dysfunction, leading to alterations of inflammatory mediators and neurodegenerative markers through the ERK1/2-Akt-tuberin-mTOR dependent signalling pathway in RGC-5 cells.