{"title":"Short-term and long-term high-fat diet promote metabolic disorder through reprogramming mRNA m<sup>6</sup>A in white adipose tissue by gut microbiota.","authors":"Youhua Liu, Jiaqi Liu, Ruiti Ren, Zimeng Xin, Yaojun Luo, Yushi Chen, Chaoqun Huang, Yuxi Liu, Tongyudan Yang, Xinxia Wang","doi":"10.1186/s40168-025-02047-4","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Although short-term high-fat diet (S-HFD) and long-term high-fat diet (L-HFD) induce metabolic disorder, the underlying epigenetic mechanism is still unclear.</p><p><strong>Results: </strong>Here, we found that both 4 days of S-HFD and 10 weeks of L-HFD increased mRNA m<sup>6</sup>A level in epididymal white adipose tissue (eWAT) and impaired metabolic health. Interestingly, S-HFD activated transposable elements (TEs), especially endogenous retroviruses (ERVs) in eWAT, while L-HFD activated long interspersed elements (LINEs). Subsequently, we demonstrated that both S-HFD and L-HFD increased m<sup>6</sup>A level of Ehmt2 and decreased EHMT2 protein expression and H3K9me2 level, accounting for activation of ERVs and LINEs. Overexpression of EHMT2 in eWAT or inhibition of ERVs and LINEs by antiviral therapy improved metabolic health under HFD feeding. Notably, we found that both short-term and long-term HFD feeding increased Fimicutes/Bacteroidota ratio and decreased the gut microbiome health index. Fecal microbiota transplantation (FMT) experiments demonstrated that gut microbiota from S-HFD and L-HFD was responsible for increased m<sup>6</sup>A level in eWAT, resulting in glucose intolerance and insulin insensitivity. Furthermore, we identified that both S-HFD and L-HFD increased the abundance of the gut microbial metabolite homogentisic acid (HGA), and HGA level was positively correlated with unclassified_f__Lachnospiraceae which was both increased in S-HFD and L-HFD feeding mice. Administration of HGA increased the m<sup>6</sup>A level of Ehmt2 and decreased the EHMT2 protein expression and H3K9me2 level in eWAT, leading to metabolic disorder in mice.</p><p><strong>Conclusions: </strong>Together, this study reveals a novel mechanism that S-HFD and L-HFD induce metabolism disorder through gut microbiota-HGA-m<sup>6</sup>A-Ehmt2-ERV/LINE signaling. These findings may provide a novel insight for prevention and treatment of metabolism disorder upon short-term or long-term dietary fat intake. Video Abstract.</p>","PeriodicalId":18447,"journal":{"name":"Microbiome","volume":"13 1","pages":"75"},"PeriodicalIF":13.8000,"publicationDate":"2025-03-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11912683/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Microbiome","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1186/s40168-025-02047-4","RegionNum":1,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"MICROBIOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Background: Although short-term high-fat diet (S-HFD) and long-term high-fat diet (L-HFD) induce metabolic disorder, the underlying epigenetic mechanism is still unclear.
Results: Here, we found that both 4 days of S-HFD and 10 weeks of L-HFD increased mRNA m6A level in epididymal white adipose tissue (eWAT) and impaired metabolic health. Interestingly, S-HFD activated transposable elements (TEs), especially endogenous retroviruses (ERVs) in eWAT, while L-HFD activated long interspersed elements (LINEs). Subsequently, we demonstrated that both S-HFD and L-HFD increased m6A level of Ehmt2 and decreased EHMT2 protein expression and H3K9me2 level, accounting for activation of ERVs and LINEs. Overexpression of EHMT2 in eWAT or inhibition of ERVs and LINEs by antiviral therapy improved metabolic health under HFD feeding. Notably, we found that both short-term and long-term HFD feeding increased Fimicutes/Bacteroidota ratio and decreased the gut microbiome health index. Fecal microbiota transplantation (FMT) experiments demonstrated that gut microbiota from S-HFD and L-HFD was responsible for increased m6A level in eWAT, resulting in glucose intolerance and insulin insensitivity. Furthermore, we identified that both S-HFD and L-HFD increased the abundance of the gut microbial metabolite homogentisic acid (HGA), and HGA level was positively correlated with unclassified_f__Lachnospiraceae which was both increased in S-HFD and L-HFD feeding mice. Administration of HGA increased the m6A level of Ehmt2 and decreased the EHMT2 protein expression and H3K9me2 level in eWAT, leading to metabolic disorder in mice.
Conclusions: Together, this study reveals a novel mechanism that S-HFD and L-HFD induce metabolism disorder through gut microbiota-HGA-m6A-Ehmt2-ERV/LINE signaling. These findings may provide a novel insight for prevention and treatment of metabolism disorder upon short-term or long-term dietary fat intake. Video Abstract.
期刊介绍:
Microbiome is a journal that focuses on studies of microbiomes in humans, animals, plants, and the environment. It covers both natural and manipulated microbiomes, such as those in agriculture. The journal is interested in research that uses meta-omics approaches or novel bioinformatics tools and emphasizes the community/host interaction and structure-function relationship within the microbiome. Studies that go beyond descriptive omics surveys and include experimental or theoretical approaches will be considered for publication. The journal also encourages research that establishes cause and effect relationships and supports proposed microbiome functions. However, studies of individual microbial isolates/species without exploring their impact on the host or the complex microbiome structures and functions will not be considered for publication. Microbiome is indexed in BIOSIS, Current Contents, DOAJ, Embase, MEDLINE, PubMed, PubMed Central, and Science Citations Index Expanded.
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