Loss of Keap1 Function Activates Nrf2 and Provides Advantages for Lung Cancer Cell Growth
Genomics (United Kingdom) · Tokyo Medical and Dental University · +4 more institutions
Abstract
Oxidative and electrophilic stresses are sensed by Keap1, which activates Nrf2 to achieve cytoprotection by regulating the expression of drug-metabolizing and antioxidative stress enzymes/proteins. Because oxidative and electrophilic stresses cause many diseases, including cancer, we hypothesized that an abnormality in the Nrf2-Keap1 system may facilitate the growth of cancer cells. We sequenced the KEAP1 gene of 65 Japanese patients with lung cancer and identified five nonsynonymous somatic mutations at a frequency of 8%. We also identified two nonsynonymous somatic KEAP1 gene mutations and two lung cancer cell lines expressing KEAP1 at reduced levels. In lung cancer cells, low Keap1 activity (due to…
Citation impact
- FWCI
- 15.30
- Percentile
- 100%
- References
- 22
Authors
13- TOTsutomu OhtaCorresponding
Genomics (United Kingdom)
- KIKumiko Iijima
Tokyo Medical and Dental University, Genomics (United Kingdom)
- MMMamiko Miyamoto
Genomics (United Kingdom)
- INIzumi Nakahara
Tokyo Medical and Dental University, Genomics (United Kingdom)
- HTHiroshi Tanaka
Tokyo Medical and Dental University
Topics & keywords
- KEAP1
- Lung cancer
- Cancer cell
- Biology
- Cancer research
- Cancer
- Oxidative stress
- Cell biology
- Good health and well-being