AI Article Synopsis
- Precision oncology focuses on identifying and targeting proteins and pathways involved in tumor growth and survival, primarily through the receptor tyrosine kinase signaling pathway to RAS and MAP kinase.
- Key proteins such as EGFR, SHP2, RAS, BRAF, and MEK are central in cancer drug development efforts due to frequent mutations.
- The review highlights the importance of understanding protein structure and regulation in designing inhibitors, showcasing how structural biology has uncovered new mechanisms of regulation and vulnerabilities in cancer targets.
Article Abstract
Precision oncology is premised on identifying and drugging proteins and pathways that drive tumorigenesis or are required for survival of tumor cells. Across diverse cancer types, the signaling pathway emanating from receptor tyrosine kinases on the cell surface to RAS and the MAP kinase pathway is the most frequent target of oncogenic mutations, and key proteins in this signaling axis including EGFR, SHP2, RAS, BRAF, and MEK have long been a focus in cancer drug discovery. In this review, we provide an overview of historical and recent efforts to develop inhibitors targeting these nodes with an emphasis on the role that an understanding of protein structure and regulation has played in inhibitor discovery and characterization. Beyond its well-established role in structure-based drug design, structural biology has revealed mechanisms of allosteric regulation, distinct effects of activating oncogenic mutations, and other vulnerabilities that have opened new avenues in precision cancer drug discovery.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8284588 | PMC |
| http://dx.doi.org/10.1002/pro.4125 | DOI Listing |
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