EBioMedicine (May 2019)

Vitamin C supplementation expands the therapeutic window of BETi for triple negative breast cancerResearch in context

  • Sushmita Mustafi,
  • Vladimir Camarena,
  • Rehana Qureshi,
  • Hyunho Yoon,
  • Claude-Henry Volmar,
  • Tyler C. Huff,
  • David W. Sant,
  • Lihong Zheng,
  • Shaun P. Brothers,
  • Claes Wahlestedt,
  • Joyce Slingerland,
  • Gaofeng Wang

Journal volume & issue
Vol. 43
pp. 201 – 210

Abstract

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Background: Bromodomain and extra-terminal inhibitors (BETi) have shown efficacy for the treatment of aggressive triple negative breast cancer (TNBC). However, BETi are plagued by a narrow therapeutic window as manifested by severe toxicities at effective doses. Therefore, it is a limitation to their clinical implementation in patient care. Methods: The impact of vitamin C on the efficacy of small compounds including BETi was assessed by high-throughput screening. Co-treatment of TNBC by BETi especially JQ1 and vitamin C was evaluated in vitro and in vivo. Findings: High-throughput screening revealed that vitamin C improves the efficacy of a number of structurally-unrelated BETi including JQ1, I-BET762, I-BET151, and CPI-203 in treating TNBC cells. The synergy between BETi and vitamin C is due to suppressed histone acetylation (H3ac and H4ac), which is in turn caused by upregulated histone deacetylase 1 (HDAC1) expression upon vitamin C addition. Treatment with JQ1 at lower doses together with vitamin C induces apoptosis and inhibits the clonogenic ability of cultured TNBC cells. Oral vitamin C supplementation renders a sub-therapeutic dose of JQ1 able to inhibit human TNBC xenograft growth and metastasis in mice. Interpretation: Vitamin C expands the therapeutic window of BETi by sensitizing TNBC to BETi. Using vitamin C as a co-treatment, lower doses of BETi could be used to achieve an increased therapeutic index in patients, which will translate to a reduced side effect profile. Fund: University of Miami Sylvester Comprehensive Cancer Center, Bankhead Coley Cancer Research program (7BC10), Flight Attendant Medical Research Institute, and NIH R21CA191668 (to GW) and 1R56AG061911 (to CW and CHV). Keywords: Triple negative breast cancer, Vitamin C, BET inhibitor, Combination therapy, Histone acetylation, HDAC1