Neurobiology of Disease (Oct 2023)

Exposure to environmental airborne particulate matter caused wide-ranged transcriptional changes and accelerated Alzheimer's-related pathology: A mouse study

  • Liron L. Israel,
  • Oliver Braubach,
  • Ekaterina S. Shatalova,
  • Oksana Chepurna,
  • Sachin Sharma,
  • Dmytro Klymyshyn,
  • Anna Galstyan,
  • Antonella Chiechi,
  • Alysia Cox,
  • David Herman,
  • Bishop Bliss,
  • Irene Hasen,
  • Amanda Ting,
  • Rebecca Arechavala,
  • Michael T. Kleinman,
  • Rameshwar Patil,
  • Eggehard Holler,
  • Julia Y. Ljubimova,
  • Maya Koronyo-Hamaoui,
  • Tao Sun,
  • Keith L. Black

Journal volume & issue
Vol. 187
p. 106307

Abstract

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Air pollution poses a significant threat to human health, though a clear understanding of its mechanism remains elusive. In this study, we sought to better understand the effects of various sized particulate matter from polluted air on Alzheimer's disease (AD) development using an AD mouse model. We exposed transgenic Alzheimer's mice in their prodromic stage to different sized particulate matter (PM), with filtered clean air as control. After 3 or 6 months of exposure, mouse brains were harvested and analyzed. RNA-seq analysis showed that various PM have differential effects on the brain transcriptome, and these effects seemed to correlate with PM size. Many genes and pathways were affected after PM exposure. Among them, we found a strong activation in mRNA Nonsense Mediated Decay pathway, an inhibition in pathways related to transcription, neurogenesis and survival signaling as well as angiogenesis, and a dramatic downregulation of collagens. Although we did not detect any extracellular Aβ plaques, immunostaining revealed that both intracellular Aβ1–42 and phospho-Tau levels were increased in various PM exposure conditions compared to the clean air control. NanoString GeoMx analysis demonstrated a remarkable activation of immune responses in the PM exposed mouse brain. Surprisingly, our data also indicated a strong activation of various tumor suppressors including RB1, CDKN1A/p21 and CDKN2A/p16. Collectively, our data demonstrated that exposure to airborne PM caused a profound transcriptional dysregulation and accelerated Alzheimer's-related pathology.

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