胰高血糖素促进脂肪肝患者肝线粒体氧化和丙酮酸羧化酶通量的增加

IF 6.7 1区 化学 Q1 CHEMISTRY, ANALYTICAL Analytical Chemistry Pub Date : 2024-08-27 DOI:10.1016/j.cmet.2024.07.023
Kitt Falk Petersen, Sylvie Dufour, Wajahat Z. Mehal, Gerald I. Shulman
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引用次数: 0

摘要

我们通过位置同位素核磁共振示踪分析(PINTA)评估了代谢功能障碍相关性脂肪肝(MASL)(脂肪肝)和代谢功能障碍相关性脂肪肝疾病(MASLD)(脂肪性肝炎)患者与无肝脏脂肪变性的 BMI 匹配对照组患者的肝脏线粒体氧化、葡萄糖生成和 β-hydroxybutyrate (β-OHB) 转化率。肝脏脂肪含量通过局部 1H 磁共振波谱(MRS)进行量化。我们发现,与对照组相比,MASL 组和 MASLD 组肝脏线粒体的体内氧化率没有变化。血浆胰高血糖素浓度的生理性增加会使 MASL 组和非 MASL 组的肝线粒体氧化率增加 50%-75%,并使 MASL 组的葡萄糖生成率增加 50%,这可能部分归因于线粒体丙酮酸羧化酶通量增加了 30%。这些结果表明:(1) MASL 和 MASLD 患者的肝线粒体氧化率没有发生实质性改变;(2) 胰高血糖素会增加肝线粒体氧化率。
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Glucagon promotes increased hepatic mitochondrial oxidation and pyruvate carboxylase flux in humans with fatty liver disease

We assessed in vivo rates of hepatic mitochondrial oxidation, gluconeogenesis, and β-hydroxybutyrate (β-OHB) turnover by positional isotopomer NMR tracer analysis (PINTA) in individuals with metabolic-dysfunction-associated steatotic liver (MASL) (fatty liver) and MASL disease (MASLD) (steatohepatitis) compared with BMI-matched control participants with no hepatic steatosis. Hepatic fat content was quantified by localized 1H magnetic resonance spectroscopy (MRS). We found that in vivo rates of hepatic mitochondrial oxidation were unaltered in the MASL and MASLD groups compared with the control group. A physiological increase in plasma glucagon concentrations increased in vivo rates of hepatic mitochondrial oxidation by 50%–75% in individuals with and without MASL and increased rates of glucose production by ∼50% in the MASL group, which could be attributed in part to an ∼30% increase in rates of mitochondrial pyruvate carboxylase flux. These results demonstrate that (1) rates of hepatic mitochondrial oxidation are not substantially altered in individuals with MASL and MASLD and (2) glucagon increases rates of hepatic mitochondrial oxidation.

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来源期刊
Analytical Chemistry
Analytical Chemistry 化学-分析化学
CiteScore
12.10
自引率
12.20%
发文量
1949
审稿时长
1.4 months
期刊介绍: Analytical Chemistry, a peer-reviewed research journal, focuses on disseminating new and original knowledge across all branches of analytical chemistry. Fundamental articles may explore general principles of chemical measurement science and need not directly address existing or potential analytical methodology. They can be entirely theoretical or report experimental results. Contributions may cover various phases of analytical operations, including sampling, bioanalysis, electrochemistry, mass spectrometry, microscale and nanoscale systems, environmental analysis, separations, spectroscopy, chemical reactions and selectivity, instrumentation, imaging, surface analysis, and data processing. Papers discussing known analytical methods should present a significant, original application of the method, a notable improvement, or results on an important analyte.
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