Molecular mechanisms of the Keap1–Nrf2 pathway in stress response and cancer evolution

K Taguchi, H Motohashi, M Yamamoto - Genes to cells, 2011 - Wiley Online Library
Genes to cells, 2011Wiley Online Library
The Keap1–Nrf2 regulatory pathway plays a central role in the protection of cells against
oxidative and xenobiotic damage. Under unstressed conditions, Nrf2 is constantly
ubiquitinated by the Cul3–Keap1 ubiquitin E3 ligase complex and rapidly degraded in
proteasomes. Upon exposure to electrophilic and oxidative stresses, reactive cysteine
residues of Keap1 become modified, leading to a decline in the E3 ligase activity,
stabilization of Nrf2 and robust induction of a battery of cytoprotective genes. Biochemical …
The Keap1–Nrf2 regulatory pathway plays a central role in the protection of cells against oxidative and xenobiotic damage. Under unstressed conditions, Nrf2 is constantly ubiquitinated by the Cul3–Keap1 ubiquitin E3 ligase complex and rapidly degraded in proteasomes. Upon exposure to electrophilic and oxidative stresses, reactive cysteine residues of Keap1 become modified, leading to a decline in the E3 ligase activity, stabilization of Nrf2 and robust induction of a battery of cytoprotective genes. Biochemical and structural analyses have revealed that the intact Keap1 homodimer forms a cherry‐bob structure in which one molecule of Nrf2 associates with two molecules of Keap1 by using two binding sites within the Neh2 domain of Nrf2. This two‐site binding appears critical for Nrf2 ubiquitination. In many human cancers, missense mutations in KEAP1 and NRF2 genes have been identified. These mutations disrupt the Keap1–Nrf2 complex activity involved in ubiquitination and degradation of Nrf2 and result in constitutive activation of Nrf2. Elevated expression of Nrf2 target genes confers advantages in terms of stress resistance and cell proliferation in normal and cancer cells. Discovery and development of selective Nrf2 inhibitors should make a critical contribution to improved cancer therapy.
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