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Survival of FimH-expressing enterobacteria in macrophages relies on glycolipid traffic

Author

Listed:
  • David M. Baorto

    (Departments of Pathology)

  • Zhimin Gao

    (Departments of Pathology)

  • Ravi Malaviya

    (Departments of Pathology)

  • Michael L. Dustin

    (Departments of Pathology)

  • Anton van der Merwe

    (Sir William Dunn School of Pathology, University of Oxford)

  • Douglas M. Lublin

    (Departments of Pathology)

  • Soman N. Abraham

    (Departments of Pathology
    Washington University School of Medicine
    Duke University Medical Center)

Abstract

Strains of Escherichia coli persist within the human gut as normal commensals, but are frequent pathogens and can cause recurrent infection1,2,3. Here we show that, in contrast to E. coli subjected to opsonic interactions stimulated by the host's immune response, E.coli that bind to the macrophage surface exclusively through thebacterial lectin FimH can survive inside the cell following phagocytosis. This viability is largely due to the attenuation of intracellular free-radical release and of phagosome acidification during FimH-mediated internalization, both of which are triggered by antibody-mediated internalization. This different processing of non-opsonized bacteria is supported by morphological evidence of tight-fitting phagosomes compared with looser, antibody-mediated phagosomes. We propose that non-opsonized FimH-expressing E. coli co-opt internalization of lipid-rich microdomains following binding to the FimH receptor, the glycosylphosphatidylinositol-linked protein CD48, because (1) the sterol-binding agents filipin, nystatin and methyl β-cyclodextrin specifically block FimH-mediated internalization; (2) CD48 and the protein caveolin both accumulate on macrophage membranes surrounding bacteria; and (3) antibodies against CD48 inhibit FimH-mediated internalization. Our findings bring the traditionally extracellular E. coli into the realm of opportunistic intracellular parasitism and suggest how opportunistic infections with FimH-expressing enterobacteria could occur in a setting deprived of opsonizing antibodies.

Suggested Citation

  • David M. Baorto & Zhimin Gao & Ravi Malaviya & Michael L. Dustin & Anton van der Merwe & Douglas M. Lublin & Soman N. Abraham, 1997. "Survival of FimH-expressing enterobacteria in macrophages relies on glycolipid traffic," Nature, Nature, vol. 389(6651), pages 636-639, October.
  • Handle: RePEc:nat:nature:v:389:y:1997:i:6651:d:10.1038_39376
    DOI: 10.1038/39376
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    Cited by:

    1. Jinhu Liu & Huajun Zhao & Tong Gao & Xinyan Huang & Shujun Liu & Meichen Liu & Weiwei Mu & Shuang Liang & Shunli Fu & Shijun Yuan & Qinglin Yang & Panpan Gu & Nan Li & Qingping Ma & Jie Liu & Xinke Zh, 2024. "Glypican-3-targeted macrophages delivering drug-loaded exosomes offer efficient cytotherapy in mouse models of solid tumours," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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