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Fetal lung underdevelopment is rescued by administration of amniotic fluid stem cell extracellular vesicles in rodents.

Author information

Affiliations

  • 1. Developmental and Stem Cell Biology Program, Peter Gilgan Centre for Research and Learning, The Hospital for Sick Children, Toronto, M5G 0A4, Canada.
      Authors
    • Antounians L 1, 3
    • Catania VD 1, 3
    • Montalva L 1, 3
    • Liu BD 1, 3
    • Matei AC 1, 3
    • Tzanetakis A 1, 3
    • Wong AP 1
    • Rossant J 1
    • Zani A 1, 3
    (9 authors)
  • 2. Genetics and Genome Biology Program, Peter Gilgan Centre for Research and Learning, The Hospital for Sick Children, Toronto, M5G 0A4, Canada.
      Authors
    • Hou H 2
    • Chan C 2
    • Wilson MD 2
    (3 authors)
  • 3. Division of General and Thoracic Surgery, The Hospital for Sick Children, Toronto, M5G 1X8, Canada.
      Authors
    • Antounians L 1, 3
    • Catania VD 1, 3
    • Montalva L 1, 3
    • Liu BD 1, 3
    • Matei AC 1, 3
    • Tzanetakis A 1, 3
    • Li B 3
    • Zani A 1, 3
    (8 authors)
  • 4. Laboratory of Experimental Fetal and Neonatal Surgery, Division of Pediatric Surgery, Ribeirão Preto Medical School, University of São Paulo, Ribeirão Preto, São Paolo, 14049-900, Brazil.
      Authors
    • Figueira RL 4
    • da Costa KM 4
    • Sbragia L 4
    (3 authors)
  • 5. School of Biological Sciences, University of Reading, Reading RG6 6AS, UK.
      Authors
    • Mitchell R 5
    • Patel K 5
    (2 authors)
    • Show all (7)

ORCIDs linked to this article

Show all (12)

Science Translational Medicine, 01 Apr 2021, 13(590):eaax5941
https://doi.org/10.1126/scitranslmed.aax5941 PMID: 33883273 

Abstract 

Fetal lung underdevelopment, also known as pulmonary hypoplasia, is characterized by decreased lung growth and maturation. The most common birth defect found in babies with pulmonary hypoplasia is congenital diaphragmatic hernia (CDH). Despite research and clinical advances, babies with CDH still have high morbidity and mortality rates, which are directly related to the severity of lung underdevelopment. To date, there is no effective treatment that promotes fetal lung growth and maturation. Here, we describe a stem cell-based approach in rodents that enhances fetal lung development via the administration of extracellular vesicles (EVs) derived from amniotic fluid stem cells (AFSCs). Using fetal rodent models of pulmonary hypoplasia (primary epithelial cells, organoids, explants, and in vivo), we demonstrated that AFSC-EV administration promoted branching morphogenesis and alveolarization, rescued tissue homeostasis, and stimulated epithelial cell and fibroblast differentiation. We confirmed this regenerative ability in in vitro models of lung injury using human material, where human AFSC-EVs obtained following good manufacturing practices restored pulmonary epithelial homeostasis. Investigating EV mechanism of action, we found that AFSC-EV beneficial effects were exerted via the release of RNA cargo. MicroRNAs regulating the expression of genes involved in lung development, such as the miR17-92 cluster and its paralogs, were highly enriched in AFSC-EVs and were increased in AFSC-EV-treated primary lung epithelial cells compared to untreated cells. Our findings suggest that AFSC-EVs hold regenerative ability for underdeveloped fetal lungs, demonstrating potential for therapeutic application in patients with pulmonary hypoplasia.

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Read article at publisher's site: https://doi.org/10.1126/scitranslmed.aax5941

Read article for free, from open access legal sources, via Unpaywall: https://centaur.reading.ac.uk/93652/1/aax5941_CombinedPDF_v4.pdfUnpaywall

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Funding 

Funders who supported this work.

CIHR

    CIHR-SickKids Foundation (1)

    Centre for Applied Genomics (5)

    Coordination for the Improvement of Higher Education Personne (1)

    Foundation for the Support of Teaching, Research and Service of the University Hospital

      Hospital for Sick Children

        NSERC (1)

        National Council for Scientific and Technological Development (1)

        Ontario Ministry of Research and Innovation

          Rosetrees Trust (1)

          SickKids Restracomp Fellowship

            Tier 2 Canada Research Chair