线粒体丙酮酸载体调节雌性小鼠的脂肪葡萄糖分配。

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Christopher E. Shannon , Terry Bakewell , Marcel J. Fourcaudot , Iriscilla Ayala , Annie A. Smelter , Edgar A. Hinostroza , Giovanna Romero , Mara Asmis , Leandro C. Freitas Lima , Martina Wallace , Luke Norton
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引用次数: 0

摘要

目的:线粒体丙酮酸载体(MPC)是中间代谢的关键节点:线粒体丙酮酸载体(MPC)在中间代谢中占据着一个关键节点,促使人们将其作为治疗肥胖症和心脏代谢疾病的治疗靶点。脂肪组织营养代谢失调是肥胖症病理生理学的一个突出特征,但脂肪 MPC 的功能作用尚未得到探讨。我们研究了MPC是否会影响雌性和雄性小鼠脂肪组织对饮食压力的适应:方法:我们在 3T3L1 脂肪细胞和小鼠脂肪外植体中评估了药理学和遗传学干扰 MPC 对线粒体甘油三酯组装途径(脂肪生成和甘油酯生成)的影响,并结合分析了代谢受损人类的脂肪 MPC 表达。随后,采用放射性标记示踪剂和 GC/MS 代谢组学相结合的方法,对缺乏脂肪细胞 MPC1(Mpc1AD-/-)的雄性和雌性小鼠的全身和脂肪特异性葡萄糖代谢进行了研究:结果:用UK5099或siMPC1处理会损害丙酮酸合成脂类和甘油-3-磷酸,并减弱3T3L1脂肪细胞中甘油三酯的积累,而人体脂肪组织中MPC的表达与全身和脂肪组织代谢功能障碍指数呈负相关。Mpc1AD-/-小鼠的成熟脂肪外植体本质上无法将丙酮酸转化为甘油三酯。在体内,MPC缺失限制了循环葡萄糖与脂肪甘油三酯的结合,但仅限于以零脂肪饮食喂养的雌性小鼠,这与三羧酸循环池大小的性别特异性减少以及生脂和甘油代谢途径的代偿性转录变化有关。然而,Mpc1AD-/-小鼠无论性别如何,即使在零膳食脂肪的条件下,其全身脂肪含量和代谢健康状况仍能保持不变:这些发现凸显了雌性与雄性小鼠脂肪中线粒体驱动的甘油三酯组装能力更强,并揭示了在饮食脂质限制条件下,雌性脂肪中的葡萄糖分配依赖于线粒体驱动的新陈代谢。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The mitochondrial pyruvate carrier regulates adipose glucose partitioning in female mice

Objective

The mitochondrial pyruvate carrier (MPC) occupies a critical node in intermediary metabolism, prompting interest in its utility as a therapeutic target for the treatment of obesity and cardiometabolic disease. Dysregulated nutrient metabolism in adipose tissue is a prominent feature of obesity pathophysiology, yet the functional role of adipose MPC has not been explored. We investigated whether the MPC shapes the adaptation of adipose tissue to dietary stress in female and male mice.

Methods

The impact of pharmacological and genetic disruption of the MPC on mitochondrial pathways of triglyceride assembly (lipogenesis and glyceroneogenesis) was assessed in 3T3L1 adipocytes and murine adipose explants, combined with analyses of adipose MPC expression in metabolically compromised humans. Whole-body and adipose-specific glucose metabolism were subsequently investigated in male and female mice lacking adipocyte MPC1 (Mpc1AD−/−) and fed either standard chow, high-fat western style, or high-sucrose lipid restricted diets for 24 weeks, using a combination of radiolabeled tracers and GC/MS metabolomics.

Results

Treatment with UK5099 or siMPC1 impaired the synthesis of lipids and glycerol-3-phosphate from pyruvate and blunted triglyceride accumulation in 3T3L1 adipocytes, whilst MPC expression in human adipose tissue was negatively correlated with indices of whole-body and adipose tissue metabolic dysfunction. Mature adipose explants from Mpc1AD−/− mice were intrinsically incapable of incorporating pyruvate into triglycerides. In vivo, MPC deletion restricted the incorporation of circulating glucose into adipose triglycerides, but only in female mice fed a zero fat diet, and this associated with sex-specific reductions in tricarboxylic acid cycle pool sizes and compensatory transcriptional changes in lipogenic and glycerol metabolism pathways. However, whole-body adiposity and metabolic health were preserved in Mpc1AD−/− mice regardless of sex, even under conditions of zero dietary fat.

Conclusions

These findings highlight the greater capacity for mitochondrially driven triglyceride assembly in adipose from female versus male mice and expose a reliance upon MPC-gated metabolism for glucose partitioning in female adipose under conditions of dietary lipid restriction.

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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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