Ecotoxicology and Environmental Safety (Oct 2024)

Combined transcriptome and microbiome analysis reveals the thyrotoxic effects of PM2.5 in female rats

  • Xinwen Dong,
  • Xiaofeng Han,
  • Sanqiao Yao,
  • Yaguang Su,
  • Zheng Luo,
  • Lvfei Deng,
  • Fengquan Zhang,
  • Jie Xu,
  • Li Zhang,
  • Haibin Li,
  • Weidong Wu

Journal volume & issue
Vol. 284
p. 116879

Abstract

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Pervasive environmental pollutants, specifically particulate matter (PM2.5), possess the potential to disrupt homeostasis of female thyroid hormone (TH). However, the precise mechanism underlying this effect remains unclear. In this study, we established a model of PM2.5-induced thyroid damage in female rats through intratracheal instillation and employed histopathological and molecular biological methods to observe the toxic effects of PM2.5 on the thyroid gland. Transcriptome gene analysis and 16S rRNA sequencing were utilized to investigate the impact of PM2.5 exposure on the female rat thyroid gland. Furthermore, based on the PM2.5-induced toxic model in female rats, we evaluated its effects on intestinal microbiota, TH levels, and indicators of thyroid function. The findings revealed that PM2.5 exposure induced histopathological damage to thyroid tissue by disrupting thyroid hormone levels (total T3 [TT3], (P 0.05), thus further inducing histopathological injuries. Transcriptome analysis identified differentially expressed genes (DEGs), primarily concentrated in interleukin 17 (IL-17), forkhead box O (FOXO), and other signaling pathways. Furthermore, exposure to PM2.5 altered the composition and abundance of intestinal microbes. Transcriptome and microbiome analyses demonstrated a correlation between the DEGs within these pathways and the flora present in the intestines. Moreover, 16 S rRNA gene sequencing analysis or DEGs combined with thyroid function analysis revealed that exposure to PM2.5 significantly induced thyroid hormone imbalance. We further identified key DEGs involved in thyroid function-relevant pathways, which were validated using molecular biology methods for clinical applications. In conclusion, the homeostasis of the ''gut-thyroid'' axis may serve as the underlying mechanism for PM2.5-induced thyrotoxicity in female rats.

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