Literature DB >> 33597271

Mitochondrial Inhibitor Atovaquone Increases Tumor Oxygenation and Inhibits Hypoxic Gene Expression in Patients with Non-Small Cell Lung Cancer.

Michael Skwarski1,2, Daniel R McGowan1,3, Elizabeth Belcher4, Francesco Di Chiara4, Dionisios Stavroulias4, Mark McCole5, Jennifer L Derham2, Kwun-Ye Chu1,2, Eugene Teoh2, Jagat Chauhan6, Dawn O'Reilly1, Benjamin H L Harris1, Philip S Macklin7, Joshua A Bull8, Marcus Green1, Gonzalo Rodriguez-Berriguete1, Remko Prevo1, Lisa K Folkes1, Leticia Campo1, Petra Ferencz9, Paula L Croal9, Helen Flight10, Cathy Qi11, Jane Holmes11, James P B O'Connor12, Fergus V Gleeson13, W Gillies McKenna1, Adrian L Harris1, Daniel Bulte9, Francesca M Buffa1, Ruth E Macpherson13, Geoff S Higgins14,2.   

Abstract

PURPOSE: Tumor hypoxia fuels an aggressive tumor phenotype and confers resistance to anticancer treatments. We conducted a clinical trial to determine whether the antimalarial drug atovaquone, a known mitochondrial inhibitor, reduces hypoxia in non-small cell lung cancer (NSCLC). PATIENTS AND METHODS: Patients with NSCLC scheduled for surgery were recruited sequentially into two cohorts: cohort 1 received oral atovaquone at the standard clinical dose of 750 mg twice daily, while cohort 2 did not. Primary imaging endpoint was change in tumor hypoxic volume (HV) measured by hypoxia PET-CT. Intercohort comparison of hypoxia gene expression signatures using RNA sequencing from resected tumors was performed.
RESULTS: Thirty patients were evaluable for hypoxia PET-CT analysis, 15 per cohort. Median treatment duration was 12 days. Eleven (73.3%) atovaquone-treated patients had meaningful HV reduction, with median change -28% [95% confidence interval (CI), -58.2 to -4.4]. In contrast, median change in untreated patients was +15.5% (95% CI, -6.5 to 35.5). Linear regression estimated the expected mean HV was 55% (95% CI, 24%-74%) lower in cohort 1 compared with cohort 2 (P = 0.004), adjusting for cohort, tumor volume, and baseline HV. A key pharmacodynamics endpoint was reduction in hypoxia-regulated genes, which were significantly downregulated in atovaquone-treated tumors. Data from multiple additional measures of tumor hypoxia and perfusion are presented. No atovaquone-related adverse events were reported.
CONCLUSIONS: This is the first clinical evidence that targeting tumor mitochondrial metabolism can reduce hypoxia and produce relevant antitumor effects at the mRNA level. Repurposing atovaquone for this purpose may improve treatment outcomes for NSCLC. ©2021 American Association for Cancer Research.

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Year:  2021        PMID: 33597271      PMCID: PMC7611473          DOI: 10.1158/1078-0432.CCR-20-4128

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  48 in total

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Journal:  Bioinformatics       Date:  2012-10-25       Impact factor: 6.937

2.  Prognostic impact of hypoxia imaging with 18F-misonidazole PET in non-small cell lung cancer and head and neck cancer before radiotherapy.

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Journal:  J Nucl Med       Date:  2005-02       Impact factor: 10.057

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Authors:  Kenneth A Krohn; Jeanne M Link; Ralph P Mason
Journal:  J Nucl Med       Date:  2008-06       Impact factor: 10.057

Review 4.  The ever-expanding role of HIF in tumour and stromal biology.

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Journal:  Nat Cell Biol       Date:  2016-04       Impact factor: 28.824

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Journal:  Front Immunol       Date:  2018-07-16       Impact factor: 7.561

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10.  Large meta-analysis of multiple cancers reveals a common, compact and highly prognostic hypoxia metagene.

Authors:  F M Buffa; A L Harris; C M West; C J Miller
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3.  Alternatively Expressed Transcripts Analysis of Non-Small Cell Lung Cancer Cells under Different Hypoxic Microenvironment.

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5.  Investigation of atovaquone-induced spatial changes in tumour hypoxia assessed by hypoxia PET/CT in non-small cell lung cancer patients.

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