Human milk extracellular vesicles target nodes in interconnected signalling pathways that enhance oral epithelial barrier function and dampen immune responses

Marijke I. Zonneveld; Martijn J.C. vanHerwijnen; Marcela M. Fernandez‐Gutierrez; Alberta Giovanazzi; Anne Marit deGroot; Marije Kleinjan; Toni M.M. vanCapel; Alice J.A.M. Sijts; Leonie S. Taams; Johan Garssen; Esther C. deJong; Michiel Kleerebezem; Esther N.M. Nolte‐’t Hoen; Frank A. Redegeld; Marca H.M. Wauben

doi:10.1002/jev2.12071

Journal of Extracellular Vesicles (Mar 2021)

Human milk extracellular vesicles target nodes in interconnected signalling pathways that enhance oral epithelial barrier function and dampen immune responses

Marijke I. Zonneveld,
Martijn J.C. vanHerwijnen,
Marcela M. Fernandez‐Gutierrez,
Alberta Giovanazzi,
Anne Marit deGroot,
Marije Kleinjan,
Toni M.M. vanCapel,
Alice J.A.M. Sijts,
Leonie S. Taams,
Johan Garssen,
Esther C. deJong,
Michiel Kleerebezem,
Esther N.M. Nolte‐’t Hoen,
Frank A. Redegeld,
Marca H.M. Wauben

Affiliations

Marijke I. Zonneveld: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Martijn J.C. vanHerwijnen: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Marcela M. Fernandez‐Gutierrez: Host‐Microbe Interactomics Group Department of Animal Sciences Wageningen University Wageningen The Netherlands
Alberta Giovanazzi: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Anne Marit deGroot: Division of Infectious Diseases & Immunology Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Marije Kleinjan: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Toni M.M. vanCapel: Department of Experimental Immunology Academic Medical Center Amsterdam The Netherlands Centre for inflammation University of Amsterdam Amsterdam Infection & Immunity Institute (AI&II) Amsterdam The Netherlands
Alice J.A.M. Sijts: Division of Infectious Diseases & Immunology Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Leonie S. Taams: Centre for Inflammation Biology and Cancer Immunology Department of Inflammation Biology School of Immunology & Microbial Sciences King's College London London UK
Johan Garssen: Division of Pharmacology Department of Pharmaceutical Sciences Faculty of Science Utrecht University Utrecht The Netherlands
Esther C. deJong: Department of Experimental Immunology Academic Medical Center Amsterdam The Netherlands Centre for inflammation University of Amsterdam Amsterdam Infection & Immunity Institute (AI&II) Amsterdam The Netherlands
Michiel Kleerebezem: Host‐Microbe Interactomics Group Department of Animal Sciences Wageningen University Wageningen The Netherlands
Esther N.M. Nolte‐’t Hoen: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands
Frank A. Redegeld: Division of Pharmacology Department of Pharmaceutical Sciences Faculty of Science Utrecht University Utrecht The Netherlands
Marca H.M. Wauben: Department of Biomolecular Health Sciences Faculty of Veterinary Medicine Utrecht University Utrecht The Netherlands

DOI: https://doi.org/10.1002/jev2.12071
Journal volume & issue: Vol. 10, no. 5
pp. n/a – n/a

Abstract

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Abstract Maternal milk is nature's first functional food. It plays a crucial role in the development of the infant's gastrointestinal (GI) tract and the immune system. Extracellular vesicles (EVs) are a heterogeneous population of lipid bilayer enclosed vesicles released by cells for intercellular communication and are a component of milk. Recently, we discovered that human milk EVs contain a unique proteome compared to other milk components. Here, we show that physiological concentrations of milk EVs support epithelial barrier function by increasing cell migration via the p38 MAPK pathway. Additionally, milk EVs inhibit agonist‐induced activation of endosomal Toll like receptors TLR3 and TLR9. Furthermore, milk EVs directly inhibit activation of CD4+ T cells by temporarily suppressing T cell activation without inducing tolerance. We show that milk EV proteins target key hotspots of signalling networks that can modulate cellular processes in various cell types of the GI tract.

Published in Journal of Extracellular Vesicles

ISSN: 2001-3078 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Cytology
Website: https://onlinelibrary.wiley.com/journal/20013078

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