Abstract
Cancer therapy has improved considerably in the last years; however, therapeutic resistance is still a major problem that impedes full response to the treatment and the main cause of patient relapse and death. Numerous kinases have been reported to be overactivated in cancer and induce resistance to current therapies. Targeting kinases has proven to be useful for overcoming chemotherapy resistance and thus improving patient outcomes. Inhibitor of kappaB kinase alpha (IKKα) is a serine/threonine kinase that was first described as part of the IKK complex in the nuclear factor-κB (NF-κB) pathway, which regulates several physiological and physiopathological processes such as immunity, inflammation, and cancer. However, the IKKα subunit has been shown to be dispensable for NF-κB activation and responsible of multiple pro-tumorigenic functions. Furthermore, we identified a nuclear active form of IKKα kinase IKKα(p45) that promotes tumor growth and therapy resistance, independent of canonical NF-κB. Improved understanding of resistance mechanisms will facilitate drug discovery and provide new effective therapies. Here, we review the recent publications on the implications of IKKα in cancer initiation, development, and resistance.
Highlights
Cancer is the second leading cause of death worldwide[1]
We proposed that IKKα(p45) might be responsible for the multiple functions that have been ascribed to nuclear IKKα including histone 3 phosphorylation, regulation of specific gene transcription, cancer progression, and metastasis[18,19,20,21,22,23]
Our group recently demonstrated that IKKα or BRAF inhibition [leading to abrogation of IKKα(p45) activity] synergizes with chemotherapeutic (DNA-damaging) agents to induce tumor eradication in a xenograft mouse model derived for a chemotherapy-resistant human colorectal cancer (CRC) that had already metastasized to the liver of the patient[4]
Summary
Cancer is the second leading cause of death worldwide[1]. Specific genetic background, exposure to various environmental stresses, and unhealthy diets are the main factors that lead to the accumulation of molecular changes or mutations that will contribute to the initiation and progression of carcinogenesis.www.cdrjournal.comColomer et al. Several natural compounds and synthetic drugs have shown to inhibit IKK activity and prevent cancer or cell growth in animal models[12,13,14].
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