Inhalable Textile Microplastic Fibers Impair Airway Epithelial Differentiation

Shanshan Song, Fransien van Dijk, Gwenda F Vasse, Qiongliang Liu, Irene F Gosselink, Ellen Weltjens, Alex Hv Remels, Marina H de Jager, Sophie Bos, Chenxi Li, Tobias Stoeger, Markus Rehberg, David Kutschke, Gail van Eck, Xinhui Wu, Suzanne H Willems, Devin Boom, Ingeborg M Kooter, Diana Spierings, Rene WardenaarMatthew Cole, Martijn C Nawijn, Anna Salvati, Reinoud Gosens, Barbro N Melgert*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review


RATIONALE: Microplastics are a pressing global concern and inhalation of microplastic fibers has been associated with interstitial and bronchial inflammation in flock workers. However, how microplastic fibers affect the lungs is unknown.

OBJECTIVES: Our aim was to assess the effects of 12x31 µm nylon 6,6 (nylon) and 15x52 µm polyethylene terephthalate (polyester) textile microplastic fibers on lung epithelial growth and differentiation.

METHODS: We used human and murine alveolar and airway-type organoids as well as air-liquid interface cultures derived from primary lung epithelial progenitor cells and incubated these with either nylon or polyester fibers or nylon leachate. In addition, mice received one dose of nylon fibers or nylon leachate and 7 days later organoid-forming capacity of isolated epithelial cells was investigated.

MEASUREMENTS AND MAIN RESULTS: We observed that nylon microfibers, more than polyester, inhibited developing airway organoids and not established ones. This effect was mediated by components leaching from nylon. Epithelial cells isolated from mice exposed to nylon fibers or leachate, also formed fewer airway organoids, suggesting long-lasting effects of nylon components on epithelial cells. Part of these effects were recapitulated in human air-liquid interface cultures. Transcriptome analysis revealed upregulation of Hoxa5 post-exposure to nylon fibers. Inhibiting Hoxa5 during nylon exposure restored airway organoid formation, confirming Hoxa5's pivotal role in the effects of nylon.

CONCLUSIONS: These results suggest that components leaching from nylon 6,6 may especially harm developing airways and/or airways undergoing repair and we strongly encourage to characterize both hazard of and exposure to microplastic fibers in more detail.

Original languageEnglish
Pages (from-to)427 - 443
Number of pages17
JournalAmerican Journal of Respiratory and Critical Care Medicine
Issue number4
Early online date16-Nov-2023
Publication statusPublished - 15-Feb-2024

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