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. 2021 Oct 8;374(6564):216-224.
doi: 10.1126/science.abf8403. Epub 2021 Oct 7.

Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis

Nicolò Pernigoni #  1   2 Elena Zagato #  1   2 Arianna Calcinotto #  1   2 Martina Troiani  1   2 Ricardo Pereira Mestre  3 Bianca Calì  1   2 Giuseppe Attanasio  1   2 Jacopo Troisi  4 Mirko Minini  1   2 Simone Mosole  1   2 Ajinkya Revandkar  1   2 Emiliano Pasquini  1   2 Angela Rita Elia  1   2 Daniela Bossi  1   2 Andrea Rinaldi  1   2 Pasquale Rescigno  5 Penny Flohr  6 Joanne Hunt  6 Antje Neeb  6 Lorenzo Buroni  6 Christina Guo  6 Jonathan Welti  6 Matteo Ferrari  3 Matteo Grioni  7 Josée Gauthier  8 Raad Z Gharaibeh  8 Anna Palmisano  9   10 Gladys Martinetti Lucchini  11 Eugenia D'Antonio  3 Sara Merler  12   13 Marco Bolis  1   2   14 Fabio Grassi  15 Antonio Esposito  9   10 Matteo Bellone  7 Alberto Briganti  16   17 Maria Rescigno  18   19 Jean-Philippe Theurillat  1   2 Christian Jobin  8   20   21 Silke Gillessen  2   3 Johann de Bono  6 Andrea Alimonti  1   2   12   22
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Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis

Nicolò Pernigoni et al. Science. .

Abstract

The microbiota comprises the microorganisms that live in close contact with the host, with mutual benefit for both counterparts. The contribution of the gut microbiota to the emergence of castration-resistant prostate cancer (CRPC) has not yet been addressed. We found that androgen deprivation in mice and humans promotes the expansion of defined commensal microbiota that contributes to the onset of castration resistance in mice. Specifically, the intestinal microbial community in mice and patients with CRPC was enriched for species capable of converting androgen precursors into active androgens. Ablation of the gut microbiota by antibiotic therapy delayed the emergence of castration resistance even in immunodeficient mice. Fecal microbiota transplantation (FMT) from CRPC mice and patients rendered mice harboring prostate cancer resistant to castration. In contrast, tumor growth was controlled by FMT from hormone-sensitive prostate cancer patients and Prevotella stercorea administration. These results reveal that the commensal gut microbiota contributes to endocrine resistance in CRPC by providing an alternative source of androgens.

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Comment in

  • Gut bacteria enable prostate cancer growth.
    McCulloch JA, Trinchieri G. McCulloch JA, et al. Science. 2021 Oct 8;374(6564):154-155. doi: 10.1126/science.abl7070. Epub 2021 Oct 7. Science. 2021. PMID: 34618567
  • A microbiome short circuit in prostate cancer.
    Kingwell K. Kingwell K. Nat Rev Drug Discov. 2021 Dec;20(12):898. doi: 10.1038/d41573-021-00179-4. Nat Rev Drug Discov. 2021. PMID: 34675387 No abstract available.
  • Intestinal microbiota drive CRPC.
    Fenner A. Fenner A. Nat Rev Urol. 2021 Dec;18(12):705. doi: 10.1038/s41585-021-00537-2. Nat Rev Urol. 2021. PMID: 34732851 No abstract available.
  • Bacterial sabotage.
    Dart A. Dart A. Nat Rev Cancer. 2022 Jan;22(1):2-3. doi: 10.1038/s41568-021-00425-2. Nat Rev Cancer. 2022. PMID: 34782717 No abstract available.
  • Uro-Science.
    Atala A. Atala A. J Urol. 2022 Jul;208(1):205-207. doi: 10.1097/JU.0000000000002722. Epub 2022 Apr 25. J Urol. 2022. PMID: 35467377 No abstract available.

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