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Silencing of FTO inhibits oxidative stress to relieve neuropathic pain by m6A modification of GPR177

Liu Li, Mei Liu, Zhiping Song, Huaigen Zhang

2024Immunity Inflammation and Disease9 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Neuropathic pain (NP) is a challenging health condition owing to its complex nature and associated multiple etiologies. The occurrence of NP involves the abnormal activity of neurons mediated by oxidative stress (OS). Previous research has demonstrated that m6A methylation plays a role in the regulatory pathway of NP. This study aimed to investigate the specific molecular pathways through which m6A methylation modifiers alleviate NP. METHODS: For this purpose, an NO rat model was developed via spared nerve injury (SNI), followed by quantifying the animal's pain assessment via paw withdrawal threshold (PWT) and paw withdrawal latency (PWL). The OS in SNI rats was evaluated by measuring reactive oxygen species, superoxide dismutase, and catalase (CAT) in spinal cord tissues. Moreover, quantitative-real-time polymerase chain reaction and western blot analysis were employed for detecting fat mass and obesity-associated (FTO) and GPR177 levels, while m6A levels of GPR117 were analyzed via MeRIP. RESULTS: The results indicated an enhanced OS with highly expressed FTO in spinal cord tissue samples, where knocking down Fto effectively relieved NP and OS in SNI rats. Mechanistic investigations revealed that Fto-mediated reduction of Grp177 m6A modification was involved in the WNT5a/TRPV1 axis-mediated OS remission of NP. Moreover, in vitro experiment results indicated that YTHDF2 was an important m6A methylated reading protein for this process. CONCLUSIONS: Fto silencing leads to increased m6A methylation of Grp177 through a YTHDF2-dependent mechanism, resulting in decreased Grp177 stability and ultimately reducing NP in rats by OS suppression.

Topics & Concepts

Oxidative stressSNiGene silencingSuperoxide dismutaseWestern blotNeuropathic painChemistryReactive oxygen speciesMethylationPharmacologyMedicineBiochemistryGeneHydrolysisAcid hydrolysisCancer-related gene regulationRNA modifications and cancerSirtuins and Resveratrol in Medicine
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