4.8 Article

Disruption of the Gut Microbiota Confers Cisplatin Resistance in Epithelial Ovarian Cancer

Journal

CANCER RESEARCH
Volume 82, Issue 24, Pages 4654-4669

Publisher

AMER ASSOC CANCER RESEARCH
DOI: 10.1158/0008-5472.CAN-22-0455

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Categories

Funding

  1. NIH [F32 CA243314]
  2. Center of Research Excellence in Gynecologic Cancer
  3. VeloSano Bike to Cure
  4. Case Comprehensive Cancer Center
  5. Department of Defense

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This study investigated the impact of antibiotic treatment on the growth and cisplatin sensitivity of ovarian cancer. The findings suggest that antibiotic treatment may promote tumor growth and suppress cisplatin sensitivity. Antibiotic treatment led to reduced apoptosis, increased DNA damage repair, enhanced angiogenesis, and increased frequency of cisplatin-augmented cancer stem cells.
Epithelial ovarian cancer (EOC) is the leading cause of gyneco-logic cancer death. Despite initial responses to intervention, up to 80% of patient tumors recur and require additional treatment. Retrospective clinical analysis of patients with ovarian cancer indicates antibiotic use during chemotherapy treatment is associ-ated with poor overall survival. Here, we assessed whether antibiotic (ABX) treatment would impact growth of EOC and sensitivity to cisplatin. Immunocompetent or immunocompromised mice were given untreated control or ABX-containing (metronidazole, ampi-cillin, vancomycin, and neomycin) water prior to intraperitoneal injection with EOC cells, and cisplatin therapy was administered biweekly until endpoint. Tumor-bearing ABX-treated mice exhib-ited accelerated tumor growth and resistance to cisplatin therapy compared with control treatment. ABX treatment led to reduced apoptosis, increased DNA damage repair, and enhanced angiogen-esis in cisplatin-treated tumors, and tumors from ABX-treated mice contained a higher frequency of cisplatin-augmented cancer stem cells than control mice. Stool analysis indicated nonresistant gut microbial species were disrupted by ABX treatment. Cecal trans-plants of microbiota derived from control-treated mice was suffi- cient to ameliorate chemoresistance and prolong survival of ABX-treated mice, indicative of a gut-derived tumor suppressor. Meta-bolomics analyses identified circulating gut-derived metabolites that were altered by ABX treatment and restored by recolonization, providing candidate metabolites that mediate the cross-talk between the gut microbiome and ovarian cancer. Collectively, these findings indicate that an intact microbiome functions as a tumor suppressor in EOC, and perturbation of the gut microbiota with ABX treatment promotes tumor growth and suppresses cisplatin sensitivity.

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