Methylglyoxal Reshapes Hepatic and Adipose Tissue Metabolism and Increases Viability of Lymphocytes.

IF 2.5 Q3 CELL BIOLOGY

Cellular Physiology and Biochemistry Pub Date : 2025-04-21 DOI:10.33594/000000770

Naiara Cristina Lucredi, Lucas Paulo J Saavedra, Silvano Piovan, Emanuele P Lima, Mariane Aparecida F Godoy, Rogério Marchiosi, Verônica Elisa P Vicentini, Paulo Cezar F Mathias, Anacharis B Sá-Nakanishi, Lívia Bracht, Claudia C S Chini, Eduardo N Chini, Adelar Bracht, Jurandir F Comar

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引用次数: 0

Abstract

Background/aims: Methylglyoxal (MG) is associated with the development of metabolic disorders that modify the hepatic energetic metabolism in different ways. However, not much is known about the effects of MG on energy metabolism in healthy liver cells. Therefore, this study investigated the effects of daily MG administration to Wistar rats on hepatic and fat tissue energetic metabolism.

Methods: Rats received MG intraperitoneally at doses of 100 or 200 mg/kg for seven consecutive days in acute approach or at a dose of 25 mg/kg for one month in the chronic approach. Metabolic pathways were measured in isolated perfused livers (glycogen catabolism, gluconeogenesis and ketogenesis) as well in adipose tissue. Activities and mRNA expressions of gluconeogenic enzymes were assessed in the liver and the viability of human lymphocytes were evaluated in vitro.

Results: MG displayed systemic inflammation and the metabolic changes were similar to those of widespread catabolic diseases. MG and advanced glycation end-products stimulated lymphocyte proliferation, and MG increased the hepatic interleukin-6 expression. Rats that received MG developed insulin resistance. Gluconeogenesis was diminished and glycolysis was stimulated in livers of rats that received MG. Two factors contribute to this outcome: a deficiency in mitochondrial energy supply and a much more significant downregulation of gluconeogenic enzymes. The adipose tissue metabolism was modified in a way that the AMPK-induced lipolysis was increased in the retroperitoneal fat, but not in the mesenteric fat. Ketogenesis was increased and triglycerides content was decreased in the liver.

Conclusion: To what degree the modifications in hepatic metabolism found in MG-exposed rats can be translated to patients with a high-grade inflammation and cirrhosis is uncertain. However, it is unlikely that the strong catabolic state induced by MG would not contribute in some way to the hepatic dysfunction in advanced liver diseases.

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甲基乙二醛重塑肝脏和脂肪组织代谢并增加淋巴细胞的活力。

背景/目的：甲基乙二醛（Methylglyoxal， MG）与代谢紊乱的发生有关，代谢紊乱以不同的方式改变肝脏能量代谢。然而，人们对MG对健康肝细胞能量代谢的影响知之甚少。因此，本研究探讨了每日给药MG对Wistar大鼠肝脏和脂肪组织能量代谢的影响。方法：大鼠急性入路按100或200 MG /kg剂量连续7天腹腔注射MG，慢性入路按25 MG /kg剂量连续1个月注射MG。在分离的灌注肝脏中测量代谢途径（糖原分解代谢、糖异生和生酮）以及脂肪组织。测定肝脏糖异生酶活性和mRNA表达，体外测定人淋巴细胞活力。结果：MG表现出全身性炎症，代谢变化与广泛的分解代谢疾病相似。MG和晚期糖基化终产物刺激淋巴细胞增殖，MG增加肝脏白细胞介素-6的表达。服用MG的大鼠出现胰岛素抵抗。大鼠肝脏糖异生减少，糖酵解受到刺激。有两个因素导致了这一结果：线粒体能量供应不足和糖异生酶的显著下调。脂肪组织代谢在某种程度上被改变，ampk诱导的脂肪溶解在腹膜后脂肪中增加，但在肠系膜脂肪中没有。肝脏生酮增加，甘油三酯含量降低。结论：mg暴露大鼠肝脏代谢的改变在多大程度上可转化为高级别炎症和肝硬化患者尚不确定。然而，MG诱导的强分解代谢状态不太可能在某种程度上导致晚期肝病的肝功能障碍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cellular Physiology and Biochemistry 生物-生理学

CiteScore

5.80

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Cellular Physiology and Biochemistry is a multidisciplinary scientific forum dedicated to advancing the frontiers of basic cellular research. It addresses scientists from both the physiological and biochemical disciplines as well as related fields such as genetics, molecular biology, pathophysiology, pathobiochemistry and cellular toxicology & pharmacology. Original papers and reviews on the mechanisms of intracellular transmission, cellular metabolism, cell growth, differentiation and death, ion channels and carriers, and the maintenance, regulation and disturbances of cell volume are presented. Appearing monthly under peer review, Cellular Physiology and Biochemistry takes an active role in the concerted international effort to unravel the mechanisms of cellular function.