Shannon M. Hawkins

Targeting progesterone signaling prevents metastatic ovarian cancer

SignificanceWhy women carrying a pathogenic germlineBRCA1mutation are predisposed to ovarian and breast cancer remains elusive. This study points to ovarian progesterone as a culprit. Generally,BRCA1-mutation carriers exhibit high yet individually varying levels of progesterone during the menstrual cycle. Although not allBRCA1-mutation carriers develop these cancers, all of them are advised to undergo prophylactic surgeries at a young age (under 40 y to 45 y) to prevent ovarian and breast cancer. Insights from robust in vivo findings in this study offer a novel concept: Targeting progesterone signaling with antiprogestins could be an effective nonsurgical prophylactic option for ovarian and breast cancer prevention for these high-risk women.

Unintended Consequences of Antibiotic Therapy on the Microbiome Delivers a Gut Punch in Ovarian Cancer

Abstract While the early use of antibiotics during chemotherapy may be lifesaving, antibiotic therapy is associated with worse outcomes in patients with ovarian cancer during platinum chemotherapy. The study by Chambers and colleagues in this issue of Cancer Research provides mechanistic insights into how disrupting the gut microbiome with broad-spectrum antibiotics negatively influences the survival of patients with ovarian cancer and highlights the impact of the gut microbiome on tumor progression and response to therapy. Treatment of ovarian cancer models with a broad-spectrum antibiotic cocktail (ABX, vancomycin, neomycin sulfate, metronidazole, ampicillin) changed the gut microbiome and increased tumor growth and development of cisplatin resistance. Stem cells, reported to drive resistance to chemotherapy and disease recurrence in ovarian cancer, were enriched as a surprising consequence of ABX-induced microbiome disruption. Immune-competent and immune-deficient mice revealed that ABX treatment enhanced the cisplatin-induced stemness and provided evidence for immune surveillance of ovarian cancer stem cells through the gut microbiome. Two gut-derived metabolites, indole-3-propionic acid and indoxyl sulfate, suppressed by ABX treatment and reestablished with cecal microbial transplantation colonization of ABX-treated mice, were identified as potential effectors connecting the gut microbiome to ovarian cancer growth. This clinically relevant study opens new therapeutic opportunities for patients—one aimed at interventions to increase platinum sensitivity and another aimed at preventing the potential adverse effects of broad-spectrum antibiotic treatment. Both represent paradigm changes to standard care. See related article by Chambers et al., p. 4654