脂肪组织
体质指数
肥胖
内科学
内分泌学
医学
高胰岛素血症
糖尿病
代谢综合征
炎症
生物
胰岛素抵抗
腹内脂肪
调解
队列
生物信息学
可能性
2型糖尿病
生理学
优势比
微生物群
脂肪因子
脂肪团
队列研究
疾病
胰岛素
作者
Rima Chakaroun,Meenakshi Pradhan,Elias Björnson,Daniel Arvidsson,Jonatan Fridolfsson,Anders Gummesson,Marc Schoeler,Matthias Mitteregger,Gustav Smith,I. Larsson,Mats Börjesson,MATTHIAS BLÜHER,Mathias Uhlen,M Stumvoll,G. Bergström,Valentina Tremaroli,Fredrik Bäckhed
出处
期刊:Nature Medicine
[Nature Portfolio]
日期:2026-01-01
卷期号:32 (1): 113-125
被引量:1
标识
DOI:10.1038/s41591-025-04009-7
摘要
Obesity's metabolic heterogeneity is not fully captured by body mass index (BMI). Here we show that deep multi-omics phenotyping of 1,408 individuals defines a metabolome-informed obesity metric (metBMI) that captures adipose tissue-related dysfunction across organ systems. In an external cohort (n = 466), metBMI explained 52% of BMI variance and more accurately reflected adiposity than other omics models. Individuals with higher-than-expected metBMI had 2-5-fold higher odds of fatty liver disease, diabetes, severe visceral fat accumulation and attenuation, insulin resistance, hyperinsulinemia and inflammation and, in bariatric surgery (n = 75), achieved 30% less weight loss. This obesogenic signature aligned with reduced microbiome richness, altered ecology and functional potential. A 66-metabolite panel retained 38.6% explanatory power, with 90% covarying with the microbiome. Mediation analysis revealed a bidirectional, metabolite-centered host-microbiome axis, mediated by lipids, amino acids and diet-derived metabolites. These findings define an adipose-linked, microbiome-connected metabolic signature that outperforms BMI in stratifying cardiometabolic risk and guiding precision interventions.
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