In order to demonstrate that targeting RAS/CRAF protein-protein interaction would be a good therapeutic target for KRAS-driven lung cancer, we engineered a new mouse model in which the CRAF protein cannot interact with KRAS anymore.
To achieve this goal, we took advantage of the CRISPR/Cas9 technology and introduced a single point mutation in the murine CRAF gene. As expected, this single mutation completely abrogates CRAF interaction with KRAS. Moreover, expression of the CRAF mutant in the adult mouse does not induce any long term toxicity. This further suggest that targeting KRAS/CRAF interaction with a drug would not trigger major adverse effects in patients. We also engineered and established lung cancer cell lines with the same mutation and used them to understand which cellular mechanisms are impaired upon disruption of the interaction. As expected, we can show that those cells have an impaired tumour formation potential in vivo, validating the therapeutic potential of targeting this specific protein-protein interaction. As a courtesy of the MSCA fellowship, I had the opportunity to present this work at multiple international conferences.
The project attracted a lot of interest and enthusiasm from scientists working in the field and beyond, as well as from pharmaceutical companies.