American Association for Cancer Research
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Supplementary Figure 1 from Oncogenic HRAS Induces Metformin Resistance in Head and Neck Cancer by Promoting Glycolytic Metabolism

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posted on 2024-12-03, 08:22 authored by Xingyu Wu, Sendi Rafael Adame-Garcia, Keiichi Koshizuka, Pham Thuy Tien Vo, Thomas S. Hoang, Kuniaki Sato, Hiroki Izumi, Yusuke Goto, Michael M. Allevato, Kris C. Wood, Scott M. Lippman, Jorge Silvio Gutkind

Supplementary Figure 1: cancer-associated HRAS mutations in HNSCC using data from The Cancer Genome Atlas (TCGA) and Represetive images of the clonogenic assays.

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National Cancer Institute (NCI)

United States Department of Health and Human Services

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National Institute of Dental and Craniofacial Research (NIDR)

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ARTICLE ABSTRACT

Metformin administration has recently emerged as a candidate strategy for the prevention of head and neck squamous cell carcinoma (HNSCC). However, the intricate relationship between genetic alterations in HNSCC and metformin sensitivity is still poorly understood, which prevents the stratification of patients, harboring oral premalignant lesions that may benefit from the chemopreventive activity of metformin. In this study, we investigate the impact of prevalent mutations in HNSCC on response to metformin. Notably, we found that the expression of oncogenic HRAS mutants confers resistance to metformin in isogenic HNSCC cell systems, and that HNSCC cells harboring endogenous HRAS mutations display limited sensitivity to metformin. Remarkably, we found that metformin fails to reduce activation of the mTOR pathway in HRAS oncogene-expressing HNSCC cells in vitro and in vivo, correlating with reduced tumor suppressive activity. Mechanistically, we found that this process depends on the ability of HRAS to enhance glycolytic metabolism, thereby suppressing the requirement for oxidative phosphorylation to maintain the cellular energetic balance. Overall, our study revealed that HNSCC cells with oncogenic HRAS mutations exhibit diminished metformin sensitivity, thus shedding light on a potential mechanism of treatment resistance. This finding may also help explain the limited clinical responses to metformin in cancers with RAS mutations. Ultimately, our study underscores the importance of understanding the impact of the genetic landscape in tailoring precision cancer-preventive approaches in the context of HNSCC and other cancers that are characterized by the presence of a defined premalignant state, and therefore, are amenable to cancer interception strategies.Prevention Relevance: Our findings highlight the challenges of using metformin for cancer prevention in RAS-mutant cancers, where elevated glycolysis may reduce drug efficacy. This underscores the need to explore metformin’s potential in early, premalignant stages, before metabolic shifts render it less effective.

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