Design, Synthesis, Characterization, and Crystal Structure Studies of Nrf2 Modulators for Inhibiting Cancer Cell Growth In Vitro and In Vivo.
Prathima ChikkegowdaBaburajeev C PookunothVenugopal R BovillaPrashanthkumar M VeereshZonunsiami LeihangThippeswamy ThippeswamyMahesh A PadukudruBasavanagowdappa HathurRangappa S Kanchugarakoppalnull BasappaSubbaRao V MadhunapantulaPublished in: ACS omega (2021)
Nrf2 is one of the important therapeutic targets studied extensively in several cancers including the carcinomas of the colon and rectum. However, to date, not many Nrf2 inhibitors showed promising results for retarding the growth of colorectal cancers (CRCs). Therefore, in this study, first, we have demonstrated the therapeutic effect of siRNA-mediated downmodulation of Nrf2 on the proliferation rate of CRC cell lines. Next, we have designed, synthesized, characterized, and determined the crystal structures for a series of tetrahydrocarbazoles (THCs) and assessed their potential to modulate the activity of Nrf2 target gene NAD(P)H:quinone oxidoreductase (NQO1) activity by treating colorectal carcinoma cell line HCT-116. Later, the cytotoxic potential of compounds was assessed against cell lines expressing varying amounts of Nrf2, viz., breast cancer cell lines MDA-MB-231 and T47D (low functionally active Nrf2), HCT-116 (moderately active Nrf2), and lung cancer cell line A549 (highly active Nrf2), and the lead compound 5b was tested for its effect on cell cycle progression in vitro and for retarding the growth of Ehrlich ascites carcinomas (EACs) in mice. Data from our study demonstrated that among various compounds 5b exhibited better therapeutic index and retarded the growth of EAC cells in mice. Therefore, compound 5b is recommended for further development to target cancers.
Keyphrases
- oxidative stress
- cell cycle
- crystal structure
- cell cycle arrest
- metabolic syndrome
- gene expression
- risk assessment
- small molecule
- type diabetes
- transcription factor
- dna methylation
- machine learning
- copy number
- skeletal muscle
- young adults
- high fat diet induced
- artificial intelligence
- insulin resistance
- lymph node metastasis