The TNFα-induced NF-κB signaling pathway plays critical roles in multiple biological processes. Extensive studies have explored the mechanisms regulating this signaling cascade, and identified an E2 complex, Uev1A-Ubc13, that mediates K63-linked poly-Ub chain formation and thus recruits NEMO to activate the signaling transduction. In this study, we demonstrate that the Uev1A-Ubc13 complex simultaneously serves as a repressor of the NF-κB pathway. It was found that cells overexpressing UEV1A silence the signal cascade earlier than control cells. Importantly, UEV1A overexpression enhances TACE maturation to shed the TNFα receptor. The Uev1A-Ubc13 complex interacts with RHBDF2, a key factor promoting TACE maturation, and inhibition of the Uev1A-Ubc13 activity interferes with RHBDF2-promoted TACE maturation. Furthermore, upon TNFα stimulation, the Uev1A-Ubc13 complex cooperates with CHIP to promote K63-linked ubiquitination of RHBDF2, enhancing its activity toward TACE maturation and subsequently blocking TNFα-induced NF-κB signaling.
Keywords: CHIP; NF-κB; RHBDF2; TACE; Ubc13; Uev1A.
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