Abstract
The nuclear factor kappa B (NF-κB) plays vital role in the immune system by regulating innate and adaptive immunity, development and survival of lymphocytes, and lymphoid organogenesis. All known NF-κB activators converge on the IkappaB kinase (IKK) complex to activate the canonical and non-canonical NF-κB pathways. The IKK complex contains two catalytic subunits (IKKα and IKKβ) and a regulatory subunit NEMO/IKKγ that regulates the canonical NF-κB pathway, whereas IKKα regulates the non-canonical pathway. The process of IKKα activation and its role in the regulation of canonical NF-κB activation remain elusive. The canonical pathway is rapidly activated and produces a potent inflammatory response to bacterial and viral infections as well as different types of stress; however, uncontrolled NF-κB activation can lead to autoimmune diseases and cancers. Therefore, to keep the inflammatory response in check, elaborate negative regulatory mechanisms operate to terminate NF-κB activation at multiple levels by de novo synthesis of NF-κB inhibitory proteins, and orchestration of protein ubiquitination and deubiquitination. The NF-κB target genes, IκBα and A20, play critical roles in termination of the active canonical NF-κB pathway. In this review, we discuss our recent findings describing a novel function for IKKα in nucleating the ubiquitin-editing enzyme A20 complex, a major negative regulator of canonical NF-κB signaling. Consistently with an inhibitory function of IKKα, it is targeted by the human T-cell leukemia virus 1 (HTLV-1) oncoprotein, Tax, to prevent assembly of the A20 complex to maintain persistent NF-κB activation that promotes transformation and survival of virus-transformed cells.
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