HPV E6 regulates therapy responses in oropharyngeal cancer by repressing the PGC-1α/ERRα axis
Malay K. Sannigrahi, … , Elizabeth A. White, Devraj Basu
Malay K. Sannigrahi, … , Elizabeth A. White, Devraj Basu
Published September 22, 2022
Citation Information: JCI Insight. 2022;7(18):e159600. https://doi.org/10.1172/jci.insight.159600.
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Research Article Oncology Therapeutics

HPV E6 regulates therapy responses in oropharyngeal cancer by repressing the PGC-1α/ERRα axis

Abstract

Therapy with radiation plus cisplatin kills HPV+ oropharyngeal squamous cell carcinomas (OPSCCs) by increasing reactive oxygen species beyond cellular antioxidant capacity. To explore why these standard treatments fail for some patients, we evaluated whether the variation in HPV oncoprotein levels among HPV+ OPSCCs affects mitochondrial metabolism, a source of antioxidant capacity. In cell line and patient-derived xenograft models, levels of HPV full-length E6 (fl-E6) inversely correlated with oxidative phosphorylation, antioxidant capacity, and therapy resistance, and fl-E6 was the only HPV oncoprotein to display such correlations. Ectopically expressing fl-E6 in models with low baseline levels reduced mitochondrial mass, depleted antioxidant capacity, and sensitized to therapy. In this setting, fl-E6 repressed the peroxisome proliferator–activated receptor gamma co-activator 1α/estrogen-related receptor α (PGC-1α/ERRα) pathway for mitochondrial biogenesis by reducing p53-dependent PGC-1α transcription. Concordant observations were made in 3 clinical cohorts, where expression of mitochondrial components was higher in tumors of patients with reduced survival. These tumors contained the lowest fl-E6 levels, the highest p53 target gene expression, and an activated PGC-1α/ERRα pathway. Our findings demonstrate that E6 can potentiate treatment responses by depleting mitochondrial antioxidant capacity and provide evidence for low E6 negatively affecting patient survival. E6’s interaction with the PGC-1α/ERRα axis has implications for predicting and targeting treatment resistance in OPSCC.

Authors

Malay K. Sannigrahi, Pavithra Rajagopalan, Ling Lai, Xinyi Liu, Varun Sahu, Hiroshi Nakagawa, Jalal B. Jalaly, Robert M. Brody, Iain M. Morgan, Bradford E. Windle, Xiaowei Wang, Phyllis A. Gimotty, Daniel P. Kelly, Elizabeth A. White, Devraj Basu

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Figure 2

Correlation analyses among oxidative metabolic gene expression, mitochondrial mass, oxidative phosphorylation, and cisplatin resistance in HPV+ OPSCC models.

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Correlation analyses among oxidative metabolic gene expression, mitochon...
(A) Mitochondrial mass was measured in a panel of HPV+ PDXs (n = 7) by DNA qPCR to define MT-CO1/B2M. Correlation analysis was performed for MT-CO1/B2M versus number of upregulated Hallmark_Oxidative_Phosphorylation genes by RNA-Seq (left) and versus cisplatin resistance in vivo (right) measured using rate-based T/C value. (B) Correlation analysis was performed in cell lines (n = 7) for MT-CO1/B2M versus basal OCR by Seahorse assay (left) and versus NADPH/NADP+ measured by enzyme cycling-based colorimetric assay (right). (C) Correlation analysis was performed in cell lines for cisplatin IC50 by WST-1 assay versus MT-CO1/B2M, basal OCR, and NADPH/NADP+. Pearson correlation coefficients were used to calculate r values for scatterplots with confidence intervals, and P values were determined by t distribution.