Comprehensive Transcriptomic and m6A Epitranscriptomic Analysis Reveals Colchicine-Induced Kidney Toxicity via DNA Damage and Autophagy in HK2 Cells
2025
Kun Tian | Jiaxin Wen | Dongcheng Zhang | Jiaxuan Lin | Lixiang Weng | Lele Yang | Wei Zhao | Chutao Li | An Zhu
Colchicine is commonly prescribed for inflammation and gout, but its nephrotoxicity and underlying mechanisms remain incompletely understood. The objective of this research was to clarify the association between m6A methylation modifications and nephrotoxicity caused by colchicine. A significant decrease in HK2 cell viability was observed following colchicine treatment, and mRNA sequencing (mRNA-seq) revealed the differential expression of genes associated with DNA damage and autophagy. Further methylated RNA immunoprecipitation sequencing (MeRIP-seq) analysis revealed an association between N6-methyladenosine (m6A) modifications and the expression of genes involved in DNA damage and autophagy after colchicine exposure. Molecular docking and a molecular dynamics (MD) analysis identified ZC3H13 as a potential regulator of colchicine-induced cytotoxicity in HK2. Experimental validation confirmed that colchicine induces DNA damage and autophagy in HK2 cells, with ZC3H13 playing a significant role in these processes. In conclusion, the findings suggested that colchicine-induced damage in HK2 cells is associated with changes in m6A methylation levels in target genes and the altered expression of m6A regulator.
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