N6-methyladenosine (mA) messenger RNA methylation is the most widespread gene regulatory mechanism affecting liver functions and disorders. However, the relationship between m6A methylation and arsenic-induced hepatic insulin resistance (IR), which is a critical initiating event in arsenic-induced metabolic syndromes such as type 2 diabetes (T2D) and non-alcoholic fatty liver disease (NAFLD), remains unclear. Here, we showed that arsenic treatment facilitated methyltransferase-like 14 (METTL14)-mediated m6A methylation, and that METTL14 interference reversed arsenic-impaired hepatic insulin sensitivity. We previously showed that arsenic-induced NOD-like receptor protein 3 (NLRP3) inflammasome activation contributed to hepatic IR. However, the regulatory mechanisms underlying the role of arsenic toward the post-transcriptional modification of NLRP3 remain unclear. Here, we showed that NLRP3 mRNA stability was enhanced by METTL14-mediated m6A methylation during arsenic-induced hepatic IR. Furthermore, we demonstrated that arsenite methyltransferase (AS3MT), an essential enzyme in arsenic metabolic processes, interacted with NLRP3 to activate the inflammasome, thereby contributing to arsenic-induced hepatic IR. Also, AS3MT strengthened the m6A methylase association with NLRP3 to stabilize m6A-modified NLRP3. In summary, we showed that AS3MT-induced mA modification critically regulated NLRP3 inflammasome activation during arsenic-induced hepatic IR, and we identified a novel post-transcriptional function of AS3MT in promoting arsenicosis.
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| http://dx.doi.org/10.1007/s10565-022-09703-7 | DOI Listing |
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Article Synopsis
- Prolonged arsenic exposure can harm various body systems, particularly the liver, causing symptoms like skin changes, gastrointestinal issues, and anemia, with TUDCA showing potential protective effects against liver injury.
- A study was conducted on mice to investigate TUDCA's role in alleviating arsenic-induced liver damage, spanning over 24 weeks with two distinct phases of experiments.
- Through RNA sequencing, researchers identified differentially expressed genes that may explain how TUDCA mitigates liver injury from arsenic, aiming to uncover useful insights for treatment.
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