Essential role of mitochondrial Stat3 in p38 MAPK mediated apoptosis under oxidative stress.

Stat3 is an oncogene, frequently associated with malignant transformation. A body of evidence implicates that phospho-Stat3Y705 contributes to its nucleic translocation, while phospho-Stat3S727 leads to the accumulation in mitochondria. Both are of importance for tumor cell proliferation. In comparison to well-characterized signaling pathways interplaying with Stat3Y705 , little is known about Stat3S727 . In this work, we studied the influence of Stat3 deficiency on the viability of cells exposed to H2 O2 or hypoxia using siRNA and CRISPR/Cas9 genome-editing. We found dysregulation of mitochondrial activity, which was associated with excessive ROS formation and reduced mitochondrial membrane potential, and observed a synergistic effect for oxidative stress-mediated apoptosis in Stat3-KD cells or cells carrying Stat3Y705F , but not Stat3S727D , suggesting the importance of functional mitochondrial Stat3 in this context. We also found that ROS-mediated activation of ASK1/p38MAPK was involved and adding antioxidants, p38MAPK inhibitor, or genetic repression of ASK1 could easily rescue the cellular damage. Our finding reveals a new role of mitochondrial Stat3 in preventing ASK1/p38MAPK -mediated apoptosis, wich further support the notion that selective inhibition mitochondrial Stat3 could provide a primsing target for chemotherapy.