白色脂肪组织褐色化的生物标志物及其在运动和饮食诱导的体重减轻过程中的调节。
Biomarkers of browning of white adipose tissue and their regulation during exercise- and diet-induced weight loss.
作者信息
Nakhuda Asif, Josse Andrea R, Gburcik Valentina, Crossland Hannah, Raymond Frederic, Metairon Sylviane, Good Liam, Atherton Philip J, Phillips Stuart M, Timmons James A
机构信息
School of Medicine, Derby Royal Hospital, University of Nottingham, Nottingham, United Kingdom;
Department of Kinesiology, Brock University, St. Catharines, Canada;
出版信息
Am J Clin Nutr. 2016 Sep;104(3):557-65. doi: 10.3945/ajcn.116.132563. Epub 2016 Aug 3.
BACKGROUND
A hypothesis exists whereby an exercise- or dietary-induced negative energy balance reduces human subcutaneous white adipose tissue (scWAT) mass through the formation of brown-like adipocyte (brite) cells. However, the validity of biomarkers of brite formation has not been robustly evaluated in humans, and clinical data that link brite formation and weight loss are sparse.
OBJECTIVES
We used rosiglitazone and primary adipocytes to stringently evaluate a set of biomarkers for brite formation and determined whether the expression of biomarker genes in scWAT could explain the change in body composition in response to exercise training combined with calorie restriction in obese and overweight women (n = 79).
DESIGN
Gene expression was derived from exon DNA microarrays and preadipocytes from obesity-resistant and -sensitive mice treated with rosiglitazone to generate candidate brite biomarkers from a microarray. These biomarkers were evaluated against data derived from scWAT RNA from obese and overweight women before and after supervised exercise 5 d/wk for 16 wk combined with modest calorie restriction (∼0.84 MJ/d).
RESULTS
Forty percent of commonly used brite gene biomarkers exhibited an exon or strain-specific regulation. No biomarkers were positively related to weight loss in human scWAT. Greater weight loss was significantly associated with less uncoupling protein 1 expression (P = 0.006, R(2) = 0.09). In a follow-up global analysis, there were 161 genes that covaried with weight loss that were linked to greater CCAAT/enhancer binding protein α activity (z = 2.0, P = 6.6 × 10(-7)), liver X receptor α/β agonism (z = 2.1, P = 2.8 × 10(-7)), and inhibition of leptin-like signaling (z = -2.6, P = 3.9 × 10(-5)).
CONCLUSION
We identify a subset of robust RNA biomarkers for brite formation and show that calorie-restriction-mediated weight loss in women dynamically remodels scWAT to take on a more-white rather than a more-brown adipocyte phenotype.
背景
有一种假说认为,运动或饮食引起的负能量平衡通过形成棕色样脂肪细胞(brite细胞)来减少人体皮下白色脂肪组织(scWAT)的质量。然而,brite细胞形成的生物标志物的有效性在人体中尚未得到充分评估,且将brite细胞形成与体重减轻联系起来的临床数据也很稀少。
目的
我们使用罗格列酮和原代脂肪细胞来严格评估一组brite细胞形成的生物标志物,并确定scWAT中生物标志物基因的表达是否能够解释肥胖和超重女性(n = 79)在运动训练结合热量限制后的身体成分变化。
设计
基因表达来自外显子DNA微阵列,以及用罗格列酮处理的抗肥胖和肥胖敏感小鼠的前脂肪细胞,以从微阵列中生成候选brite生物标志物。这些生物标志物根据肥胖和超重女性在每周5天、共16周的监督运动并结合适度热量限制(约0.84 MJ/天)前后scWAT RNA的数据进行评估。
结果
40%常用的brite基因生物标志物表现出外显子或品系特异性调控。没有生物标志物与人体scWAT中的体重减轻呈正相关。更大程度的体重减轻与解偶联蛋白1表达的减少显著相关(P = 0.006,R² = 0.09)。在后续的全局分析中,有161个与体重减轻共变的基因,它们与更高的CCAAT/增强子结合蛋白α活性(z = 2.0,P = 6.6×10⁻⁷)、肝脏X受体α/β激动作用(z = 2.1,P = 2.8×10⁻⁷)以及瘦素样信号传导抑制(z = -2.6,P = 3.9×10⁻⁵)相关。
结论
我们确定了一组用于brite细胞形成的可靠RNA生物标志物,并表明女性中热量限制介导的体重减轻会动态重塑scWAT,使其呈现出更白而非更棕的脂肪细胞表型。
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