Hippocampal neurons maintain the ability of proliferation throughout life to support neurogenesis. Deoxynivalenol (DON) is a mycotoxin that exhibits brain toxicity, yet whether and how DON affects hippocampal neurogenesis remains unknown. Here, we use mouse hippocampal neuron cells (HT-22) as a model to illustrate the effects of DON on neuron proliferation and to explore underlying mechanisms. DON exposure significantly inhibits the proliferation of HT-22 cells, which is associated with an up-regulation of cell cycle inhibitor p21 at both mRNA and protein levels. Global and site-specific mA methylation levels on the 3'UTR of p21 mRNA are significantly increased in response to DON treatment, whereas inhibition of mA hypermethylation significantly alleviates DON-induced cell cycle arrest. Further mechanistic studies indicate that the mA readers YTHDF1 and IGF2BP1 are responsible for mA-mediated increase in p21 mRNA stability. Meanwhile, 3'UTR of E3 ubiquitin ligase TRIM21 mRNA is also mA hypermethylated, and another mA reader YTHDF2 binds to the mA sites, leading to decreased TRIM21 mRNA stability. Consequently, TRIM21 suppression impairs ubiquitin-mediated p21 protein degradation. Taken together, mA-mediated upregulation of p21, at both post-transcriptional and post-translational levels, contributes to DON-induced inhibition of hippocampal neuron proliferation. These results may provide new insights for epigenetic therapy of neurodegenerative diseases.
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| http://dx.doi.org/10.1007/s10565-024-09872-7 | DOI Listing |
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