Particulate matter composition drives differential molecular and morphological responses in lung epithelial cells

Sean M. Engels, Pratik Kamat, G. Stavros Pafilis, Yukang Li, Anshika Agrawal, Daniel J. Haller, Jude M. Phillip, Lydia M. Contreras

Research output: Contribution to journalArticlepeer-review

Abstract

Particulate matter (PM) is a ubiquitous component of air pollution that is epidemiologically linked to human pulmonary diseases. PM chemical composition varies widely, and the development of high-throughput experimental techniques enables direct profiling of cellular effects using compositionally unique PM mixtures. Here, we show that in a human bronchial epithelial cell model, exposure to three chemically distinct PM mixtures drive unique cell viability patterns, transcriptional remodeling, and the emergence of distinct morphological subtypes. Specifically, PM mixtures modulate cell viability, DNA damage responses, and induce the remodeling of gene expression associated with cell morphology, extracellular matrix organization, and cellular motility. Profiling cellular responses showed that cell morphologies change in a PM composition-dependent manner. Finally, we observed that PM mixtures with higher cadmium content induced increased DNA damage and drove redistribution among morphological subtypes. Our results demonstrate that quantitative measurement of individual cellular morphologies provides a robust, high-throughput approach to gauge the effects of environmental stressors on biological systems and score cellular susceptibilities to pollution.

Original languageEnglish (US)
Article numberpgad415
JournalPNAS Nexus
Volume3
Issue number1
DOIs
StatePublished - Jan 1 2024

Keywords

  • air pollution
  • cell morphology
  • cell phenotyping
  • systems biology
  • transcriptomics

ASJC Scopus subject areas

  • General

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