Leona Kovac , Sofiya Gancheva , Markus Jähnert , Ratika Sehgal , Lucia Mastrototaro , Matthias Schlensak , Frank A. Granderath , Kilian Rittig , Michael Roden , Annette Schürmann , Sabine Kahl , Meriem Ouni
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Given that individuals with type 2 diabetes often exhibit more severe metabolic deterioration, we hypothesized that bariatric surgery induces distinct molecular adaptations in skeletal muscle, the major site of glucose uptake, of OB and T2D after surgery-induced weight loss.</p></div><div><h3>Methods</h3><p>All participants (OB, <em>n</em> = 13; T2D, <em>n</em> = 13) underwent detailed anthropometry before and one year after the surgery. Skeletal muscle biopsies were isolated at both time points and subjected to transcriptome and methylome analyses using a comprehensive bioinformatic pipeline.</p></div><div><h3>Results</h3><p>Before surgery, T2D had higher fasting glucose and insulin levels but lower whole-body insulin sensitivity, only glycemia remained higher in T2D than in OB after surgery. Surgery-mediated weight loss affected different subsets of genes with 2,013 differentially expressed in OB and 959 in T2D. In OB differentially expressed genes were involved in insulin, PPAR signaling and oxidative phosphorylation pathways, whereas ribosome and splicesome in T2D. LASSO regression analysis revealed distinct candidate genes correlated with improvement of phenotypic traits in OB and T2D. Compared to OB, DNA methylation was less affected in T2D in response to bariatric surgery. This may be due to increased global hydroxymethylation accompanied by decreased expression of one of the type 2 diabetes risk gene, <em>TET2</em>, encoding a demethylation enzyme in T2D.</p></div><div><h3>Conclusion</h3><p>OB and T2D exhibit differential skeletal muscle transcriptome responses to bariatric surgery, presumably resulting from perturbed epigenetic flexibility.</p></div>","PeriodicalId":11334,"journal":{"name":"Diabetes & metabolism","volume":"50 5","pages":"Article 101561"},"PeriodicalIF":4.6000,"publicationDate":"2024-07-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1262363624000533/pdfft?md5=b5f28bd399a0921a59de3602b28d6f98&pid=1-s2.0-S1262363624000533-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Different effects of bariatric surgery on epigenetic plasticity in skeletal muscle of individuals with and without type 2 diabetes\",\"authors\":\"Leona Kovac , Sofiya Gancheva , Markus Jähnert , Ratika Sehgal , Lucia Mastrototaro , Matthias Schlensak , Frank A. 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引用次数: 0
摘要
目的:减肥手术对治疗无肥胖症(OB1)和 2 型糖尿病(T2D2)患者的肥胖症非常有效。然而,减肥手术是否会引发肥胖症和 2 型糖尿病患者发生类似或不同的分子变化,目前仍是未知数。鉴于 2 型糖尿病患者通常表现出更严重的代谢恶化,我们假设减肥手术会诱导 OB 和 T2D 患者的骨骼肌(葡萄糖摄取的主要部位)在手术引起的体重减轻后发生不同的分子适应性变化:所有参与者(OB,13 人;T2D,13 人)在手术前和手术后一年都接受了详细的人体测量。在这两个时间点分离骨骼肌活检组织,并使用全面的生物信息学管道进行转录组和甲基组分析:结果:手术前,T2D患者的空腹血糖和胰岛素水平较高,但全身胰岛素敏感性较低。手术导致的体重减轻影响了不同的基因亚群,其中 2,013 个基因在 OB 中有差异表达,959 个基因在 T2D 中有差异表达。在 OB 中,差异表达基因涉及胰岛素、PPAR 信号转导和氧化磷酸化途径,而在 T2D 中则涉及核糖体和剪接体。LASSO回归分析显示,不同的候选基因与OB和T2D表型特征的改善相关。与 OB 相比,减肥手术对 T2D 的 DNA 甲基化影响较小。结论:OB 和 T2D 表现出不同的表型特征:结论:OB 和 T2D 对减肥手术表现出不同的骨骼肌转录组反应,这可能是表观遗传灵活性受到干扰所致。
Different effects of bariatric surgery on epigenetic plasticity in skeletal muscle of individuals with and without type 2 diabetes
Aim
Bariatric surgery is highly effective for the treatment of obesity in individuals without (OB1) and in those with type 2 diabetes (T2D2). However, whether bariatric surgery triggers similar or distinct molecular changes in OB and T2D remains unknown. Given that individuals with type 2 diabetes often exhibit more severe metabolic deterioration, we hypothesized that bariatric surgery induces distinct molecular adaptations in skeletal muscle, the major site of glucose uptake, of OB and T2D after surgery-induced weight loss.
Methods
All participants (OB, n = 13; T2D, n = 13) underwent detailed anthropometry before and one year after the surgery. Skeletal muscle biopsies were isolated at both time points and subjected to transcriptome and methylome analyses using a comprehensive bioinformatic pipeline.
Results
Before surgery, T2D had higher fasting glucose and insulin levels but lower whole-body insulin sensitivity, only glycemia remained higher in T2D than in OB after surgery. Surgery-mediated weight loss affected different subsets of genes with 2,013 differentially expressed in OB and 959 in T2D. In OB differentially expressed genes were involved in insulin, PPAR signaling and oxidative phosphorylation pathways, whereas ribosome and splicesome in T2D. LASSO regression analysis revealed distinct candidate genes correlated with improvement of phenotypic traits in OB and T2D. Compared to OB, DNA methylation was less affected in T2D in response to bariatric surgery. This may be due to increased global hydroxymethylation accompanied by decreased expression of one of the type 2 diabetes risk gene, TET2, encoding a demethylation enzyme in T2D.
Conclusion
OB and T2D exhibit differential skeletal muscle transcriptome responses to bariatric surgery, presumably resulting from perturbed epigenetic flexibility.
期刊介绍:
A high quality scientific journal with an international readership
Official publication of the SFD, Diabetes & Metabolism, publishes high-quality papers by leading teams, forming a close link between hospital and research units. Diabetes & Metabolism is published in English language and is indexed in all major databases with its impact factor constantly progressing.
Diabetes & Metabolism contains original articles, short reports and comprehensive reviews.