Litcius/Paper detail

Novel <scp>RAF</scp>‐directed approaches to overcome current clinical limits and block the <scp>RAS</scp>/<scp>RAF</scp> node

Rossella Scardaci, Ewa Berlinska, Pietro Scaparone, Sandra Vietti Michelina, Edoardo Garbo, Silvia Novello, David Santamarı́a, Chiara Ambrogio

2024Molecular Oncology11 citationsDOIOpen Access PDF

Abstract

Mutations in the RAS–RAF–MEK–ERK pathway are frequent alterations in cancer and RASopathies, and while RAS oncogene activation alone affects 19% of all patients and accounts for approximately 3.4 million new cases every year, less frequent alterations in the cascade's downstream effectors are also involved in cancer etiology. RAS proteins initiate the signaling cascade by promoting the dimerization of RAF kinases, which can act as oncoproteins as well: BRAF V600E is the most common oncogenic driver, mutated in the 8% of all malignancies. Research in this field led to the development of drugs that target the BRAFV600‐like mutations (Class I), which are now utilized in clinics, but cause paradoxical activation of the pathway and resistance development. Furthermore, they are ineffective against non‐BRAFV600E malignancies that dimerize and could be either RTK/RAS independent or dependent (Class II and III, respectively), which are still lacking an effective treatment. This review discusses the recent advances in anti‐RAF therapies, including paradox breakers, dimer‐inhibitors, immunotherapies, and other novel approaches, critically evaluating their efficacy in overcoming the therapeutic limitations, and their putative role in blocking the RAS pathway.

Topics & Concepts

MAPK/ERK pathwayEffectorKinaseCancer researchSignal transductionCancerAnti-apoptotic Ras signalling cascadeOncogeneBiologyMedicineCell biologyGeneticsCell cycleMelanoma and MAPK PathwaysCancer Mechanisms and TherapyCytokine Signaling Pathways and Interactions