人体持续的低体重与白色脂肪组织中线粒体活性的增加有关。

Persistent low body weight in humans is associated with higher mitochondrial activity in white adipose tissue.

机构信息

Division of Endocrinology, Diabetes, Metabolism, and Eating Disorders, CHU St-Etienne, France.

Eating Disorders, Addictions, and Extreme Bodyweight Research Group (TAPE) EA 7423, Jean Monnet University, St-Etienne, France.

出版信息

Am J Clin Nutr. 2019 Sep 1;110(3):605-616. doi: 10.1093/ajcn/nqz144.

DOI:10.1093/ajcn/nqz144

PMID:31374571

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6736451/

Abstract

BACKGROUND

Constitutional thinness (CT) is a state of low but stable body weight (BMI ≤18 kg/m2). CT subjects have normal-range hormonal profiles and food intake but exhibit resistance to weight gain despite living in the modern world's obesogenic environment.

OBJECTIVE

The goal of this study is to identify molecular mechanisms underlying this protective phenotype against weight gain.

METHODS

We conducted a clinical overfeeding study on 30 CT subjects and 30 controls (BMI 20-25 kg/m2) matched for age and sex. We performed clinical and integrative molecular and transcriptomic analyses on white adipose and muscle tissues.

RESULTS

Our results demonstrate that adipocytes were markedly smaller in CT individuals (mean ± SEM: 2174 ± 142 μm 2) compared with controls (3586 ± 216 μm2) (P < 0.01). The mitochondrial respiratory capacity was higher in CT adipose tissue, particularly at the level of complex II of the electron transport chain (2.2-fold increase; P < 0.01). This higher activity was paralleled by an increase in mitochondrial number (CT compared with control: 784 ± 27 compared with 675 ± 30 mitochondrial DNA molecules per cell; P < 0.05). No evidence for uncoupled respiration or "browning" of the white adipose tissue was found. In accordance with the mitochondrial differences, CT subjects had a distinct adipose transcriptomic profile [62 differentially expressed genes (false discovery rate of 0.1 and log fold change >0.75)], with many differentially expressed genes associating with positive metabolic outcomes. Pathway analyses revealed an increase in fatty acid oxidation ( P = 3 × 10-04) but also triglyceride biosynthesis (P = 3.6 × 10-04). No differential response to the overfeeding was observed in the 2 groups.

CONCLUSIONS

The distinct molecular signature of the adipose tissue in CT individuals suggests the presence of augm ented futile lipid cycling, rather than mitochondrial uncoupling, as a way to increase energy expenditure in CT individuals. We propose that increased mitochondrial function in adipose tissue is an important mediator in sustaining the low body weight in CT individuals. This knowledge could ultimately allow more targeted approaches for weight management treatment strategies. This trial was registered at clinicaltrials.gov as NCT02004821.

摘要

背景

体质性消瘦（CT）是一种低但稳定的体重状态（BMI≤18kg/m2）。CT 受试者的激素水平和食物摄入量处于正常范围，但尽管生活在现代肥胖环境中，他们仍表现出对体重增加的抵抗力。

目的

本研究的目的是确定导致这种对体重增加产生保护作用的表型的分子机制。

方法

我们对 30 名 CT 受试者和 30 名匹配年龄和性别的对照者（BMI 20-25kg/m2）进行了临床过食研究。我们对白色脂肪组织和肌肉组织进行了临床和综合分子及转录组分析。

结果

我们的结果表明，与对照组相比，CT 个体的脂肪细胞明显更小（平均值±SEM：2174±142μm2）（P<0.01）。CT 脂肪组织的线粒体呼吸能力更高，特别是在电子传递链复合物 II 水平（增加 2.2 倍；P<0.01）。这种更高的活性伴随着线粒体数量的增加（CT 与对照组相比：每个细胞 784±27 个与 675±30 个线粒体 DNA 分子；P<0.05）。未发现未偶联呼吸或白色脂肪组织“褐变”的证据。与线粒体差异一致，CT 受试者具有独特的脂肪转录组特征[62 个差异表达基因（假发现率为 0.1，对数倍数变化>0.75）]，许多差异表达基因与积极的代谢结果相关。通路分析显示脂肪酸氧化增加（P=3×10-04），但也发现甘油三酯生物合成增加（P=3.6×10-04）。两组之间未观察到对过食的不同反应。

结论

CT 个体脂肪组织的独特分子特征表明，存在增加的无效脂质循环，而不是线粒体解偶联，作为 CT 个体增加能量消耗的一种方式。我们提出，脂肪组织中线粒体功能的增加是维持 CT 个体低体重的重要介导因素。这一知识最终可能为体重管理治疗策略提供更有针对性的方法。该试验在 clinicaltrials.gov 上注册为 NCT02004821。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5fb6/6736451/28c8dba13425/nqz144fig1.jpg

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人体持续的低体重与白色脂肪组织中线粒体活性的增加有关。

Persistent low body weight in humans is associated with higher mitochondrial activity in white adipose tissue.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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