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The fungal mycobiome promotes pancreatic oncogenesis via activation of MBL

Author

Listed:
  • Berk Aykut

    (New York University School of Medicine)

  • Smruti Pushalkar

    (New York University College of Dentistry)

  • Ruonan Chen

    (New York University School of Medicine)

  • Qianhao Li

    (New York University College of Dentistry)

  • Raquel Abengozar

    (New York University School of Medicine)

  • Jacqueline I. Kim

    (New York University School of Medicine)

  • Sorin A. Shadaloey

    (New York University School of Medicine)

  • Dongling Wu

    (New York University School of Medicine)

  • Pamela Preiss

    (New York University School of Medicine)

  • Narendra Verma

    (New York University School of Medicine)

  • Yuqi Guo

    (New York University College of Dentistry)

  • Anjana Saxena

    (Brooklyn College, CUNY
    Graduate Center CUNY)

  • Mridula Vardhan

    (New York University College of Dentistry)

  • Brian Diskin

    (New York University School of Medicine)

  • Wei Wang

    (New York University School of Medicine)

  • Joshua Leinwand

    (New York University School of Medicine)

  • Emma Kurz

    (New York University School of Medicine)

  • Juan A. Kochen Rossi

    (New York University School of Medicine)

  • Mautin Hundeyin

    (New York University School of Medicine)

  • Constantinos Zambrinis

    (New York University School of Medicine)

  • Xin Li

    (New York University College of Dentistry)

  • Deepak Saxena

    (New York University School of Medicine
    New York University College of Dentistry)

  • George Miller

    (New York University School of Medicine
    New York University School of Medicine)

Abstract

Bacterial dysbiosis accompanies carcinogenesis in malignancies such as colon and liver cancer, and has recently been implicated in the pathogenesis of pancreatic ductal adenocarcinoma (PDA)1. However, the mycobiome has not been clearly implicated in tumorigenesis. Here we show that fungi migrate from the gut lumen to the pancreas, and that this is implicated in the pathogenesis of PDA. PDA tumours in humans and mouse models of this cancer displayed an increase in fungi of about 3,000-fold compared to normal pancreatic tissue. The composition of the mycobiome of PDA tumours was distinct from that of the gut or normal pancreas on the basis of alpha- and beta-diversity indices. Specifically, the fungal community that infiltrated PDA tumours was markedly enriched for Malassezia spp. in both mice and humans. Ablation of the mycobiome was protective against tumour growth in slowly progressive and invasive models of PDA, and repopulation with a Malassezia species—but not species in the genera Candida, Saccharomyces or Aspergillus—accelerated oncogenesis. We also discovered that ligation of mannose-binding lectin (MBL), which binds to glycans of the fungal wall to activate the complement cascade, was required for oncogenic progression, whereas deletion of MBL or C3 in the extratumoral compartment—or knockdown of C3aR in tumour cells—were both protective against tumour growth. In addition, reprogramming of the mycobiome did not alter the progression of PDA in Mbl- (also known as Mbl2) or C3-deficient mice. Collectively, our work shows that pathogenic fungi promote PDA by driving the complement cascade through the activation of MBL.

Suggested Citation

  • Berk Aykut & Smruti Pushalkar & Ruonan Chen & Qianhao Li & Raquel Abengozar & Jacqueline I. Kim & Sorin A. Shadaloey & Dongling Wu & Pamela Preiss & Narendra Verma & Yuqi Guo & Anjana Saxena & Mridula, 2019. "The fungal mycobiome promotes pancreatic oncogenesis via activation of MBL," Nature, Nature, vol. 574(7777), pages 264-267, October.
  • Handle: RePEc:nat:nature:v:574:y:2019:i:7777:d:10.1038_s41586-019-1608-2
    DOI: 10.1038/s41586-019-1608-2
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    Cited by:

    1. Yask Gupta & Anna Lara Ernst & Artem Vorobyev & Foteini Beltsiou & Detlef Zillikens & Katja Bieber & Simone Sanna-Cherchi & Angela M. Christiano & Christian D. Sadik & Ralf J. Ludwig & Tanya Sezin, 2023. "Impact of diet and host genetics on the murine intestinal mycobiome," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    2. Thomas A. Auchtung & Christopher J. Stewart & Daniel P. Smith & Eric W. Triplett & Daniel Agardh & William A. Hagopian & Anette G. Ziegler & Marian J. Rewers & Jin-Xiong She & Jorma Toppari & Åke Lern, 2022. "Temporal changes in gastrointestinal fungi and the risk of autoimmunity during early childhood: the TEDDY study," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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