二甲双胍通过抑制脂肪细胞肥大和逆转被抑制的白色脂肪组织,减轻高尿酸血症诱导的血清FFA升高和胰岛素抵抗。

Mengqi Su, Li Sun, Wenpeng Li, He Liu, Yang Liu, Ying Wei, Yue Yuan, Linqun Zheng, Shuangli Yin, Chenguang Dai, Chenyang Zhao, Zhenwei Pan, Yue Li
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引用次数: 16

摘要

高尿酸血症(HUA)显著增加代谢综合征的风险,并与高血清游离脂肪酸(FFAs)和胰岛素抵抗的患病率增加密切相关。然而,潜在的机制尚不清楚,特别是尿酸(UA)对脂肪组织的影响,脂肪组织是调节全身能量和FFA稳态的重要器官。在本研究中,我们注意到HUA患者白色脂肪组织的脂肪细胞肥大,UCP1表达降低。为了验证UA对脂肪组织的影响,我们建立了体外和体内HUA模型,阐明高水平UA可诱导脂肪细胞肥大,抑制其增生,降低其米色样特征。通过mrna测序分析,UA显著降低了脂肪细胞中瘦素的表达,这与脂肪酸代谢和AMPK信号通路密切相关,通过KEGG通路分析可以看出。此外,使用苯溴马龙(一种降糖剂)或二甲双胍诱导的AMPK表达激活降低UA可显著减轻UA诱导的FFA代谢损伤和脂肪堆积抑制,从而缓解HUA小鼠血清FFA升高和胰岛素抵抗。综上所述,这些观察结果证实了UA通过调节瘦素-AMPK通路参与脂肪组织代谢异常的病因学,二甲双胍可以通过激活AMPK改善脂肪组织功能,从而降低UA诱导的血清FFA升高和胰岛素抵抗。因此,二甲双胍可能代表了一种治疗hua相关代谢紊乱的新策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metformin alleviates hyperuricaemia-induced serum FFA elevation and insulin resistance by inhibiting adipocyte hypertrophy and reversing suppressed white adipose tissue beiging.

Hyperuricaemia (HUA) significantly increases the risk of metabolic syndrome and is strongly associated with the increased prevalence of high serum free fatty acids (FFAs) and insulin resistance. However, the underlying mechanisms are not well established, especially the effect of uric acid (UA) on adipose tissue, a vital organ in regulating whole-body energy and FFA homeostasis. In the present study, we noticed that adipocytes from the white adipose tissue of patients with HUA were hypertrophied and had decreased UCP1 expression. To test the effects of UA on adipose tissue, we built both in vitro and in vivo HUA models and elucidated that a high level of UA could induce hypertrophy of adipocytes, inhibit their hyperplasia and reduce their beige-like characteristics. According to mRNA-sequencing analysis, UA significantly decreased the expression of leptin in adipocytes, which was closely related to fatty acid metabolism and the AMPK signalling pathway, as indicated by KEGG pathway analysis. Moreover, lowering UA using benzbromarone (a uricosuric agent) or metformin-induced activation of AMPK expression significantly attenuated UA-induced FFA metabolism impairment and adipose beiging suppression, which subsequently alleviated serum FFA elevation and insulin resistance in HUA mice. Taken together, these observations confirm that UA is involved in the aetiology of metabolic abnormalities in adipose tissue by regulating leptin-AMPK pathway, and metformin could lessen HUA-induced serum FFA elevation and insulin resistance by improving adipose tissue function via AMPK activation. Therefore, metformin could represent a novel treatment strategy for HUA-related metabolic disorders.

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