Immunometabolic Signatures of Circulating Monocytes in Humans with Obesity and Insulin Resistance

IF 6.2 1区医学 Q1 ENDOCRINOLOGY & METABOLISM

Diabetes Pub Date : 2024-04-24 DOI:10.2337/db23-0970

Lisa Smeehuijzen, Anouk Gijbels, Joline P. Nugteren-Boogaard, Frank Vrieling, Mehdi Boutagouga Boudjadja, Inez Trouwborst, Kelly M. Jardon, Gabby B. Hul, Edith J.M. Feskens, Ellen E. Blaak, Gijs H. Goossens, Lydia A. Afman, Rinke Stienstra

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Abstract

Obesity is associated with chronic inflammation and metabolic complications, including insulin resistance (IR). Immune cells drive inflammation through the rewiring of intracellular metabolism. However, the impact of obesity-related IR on the metabolism and functionality of circulating immune cells, like monocytes, remains poorly understood. To increase insight into the inter-individual variation of immunometabolic signatures among individuals and their role in the development of IR, we assessed systemic and tissue-specific IR and circulating immune markers, and we characterized metabolic signatures and cytokine secretion of circulating monocytes from 194 individuals with a BMI≥25kg/m2. Monocyte metabolic signatures were defined using extracellular acidification rates (ECAR) to estimate glycolysis and oxygen consumption rates (OCR) for oxidative metabolism. Although monocyte metabolic signatures and function based on cytokine secretion varied greatly among subjects, they were strongly associated with each other. The ECAR/OCR ratio, representing the balance between glycolysis and oxidative metabolism, was negatively associated with fasting insulin, systemic IR, and liver-specific IR. These results indicate that monocytes from individuals with IR were relatively more dependent on oxidative metabolism, while monocytes from more insulinsensitive individuals were more dependent on glycolysis. Additionally, circulating CXCL11 was negatively associated with the degree of systemic IR and positively with the ECAR/OCR ratio in monocytes, suggesting that individuals with high IR and a monocyte metabolic dependence on oxidative metabolism also have lower levels of circulating CXCL11. Our findings suggest that monocyte metabolism is related to obesity-associated IR progression and deepen insights into the interplay between innate immune cell metabolism and IR development in humans.

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肥胖症和胰岛素抵抗患者循环单核细胞的免疫代谢特征

肥胖与慢性炎症和代谢并发症有关，包括胰岛素抵抗（IR）。免疫细胞通过重构细胞内代谢驱动炎症。然而，人们对肥胖相关的 IR 对单核细胞等循环免疫细胞的新陈代谢和功能的影响仍然知之甚少。为了更深入地了解个体间免疫代谢特征的差异及其在内分泌失调发展过程中的作用，我们评估了全身和组织特异性内分泌失调和循环免疫标记物，并对体重指数≥25kg/m2的194人的循环单核细胞的代谢特征和细胞因子分泌进行了表征。单核细胞代谢特征是通过细胞外酸化率（ECAR）估算糖酵解和耗氧率（OCR）估算氧化代谢来定义的。虽然不同受试者的单核细胞代谢特征和基于细胞因子分泌的功能差异很大，但它们之间存在密切联系。代表糖酵解和氧化代谢平衡的ECAR/OCR比率与空腹胰岛素、全身IR和肝脏特异性IR呈负相关。这些结果表明，IR 患者的单核细胞相对更依赖氧化代谢，而对胰岛素更敏感的患者的单核细胞则更依赖糖酵解。此外，循环中的 CXCL11 与全身红外程度呈负相关，而与单核细胞中的 ECAR/OCR 比率呈正相关，这表明红外程度高且单核细胞代谢依赖氧化代谢的个体，其循环中的 CXCL11 水平也较低。我们的研究结果表明，单核细胞代谢与肥胖相关的IR进展有关，并加深了对人类先天免疫细胞代谢与IR发展之间相互作用的了解。

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来源期刊

Diabetes 医学-内分泌学与代谢

CiteScore

12.50

自引率

2.60%

发文量

1968

审稿时长

1 months

期刊介绍： Diabetes is a scientific journal that publishes original research exploring the physiological and pathophysiological aspects of diabetes mellitus. We encourage submissions of manuscripts pertaining to laboratory, animal, or human research, covering a wide range of topics. Our primary focus is on investigative reports investigating various aspects such as the development and progression of diabetes, along with its associated complications. We also welcome studies delving into normal and pathological pancreatic islet function and intermediary metabolism, as well as exploring the mechanisms of drug and hormone action from a pharmacological perspective. Additionally, we encourage submissions that delve into the biochemical and molecular aspects of both normal and abnormal biological processes. However, it is important to note that we do not publish studies relating to diabetes education or the application of accepted therapeutic and diagnostic approaches to patients with diabetes mellitus. Our aim is to provide a platform for research that contributes to advancing our understanding of the underlying mechanisms and processes of diabetes.