PANX1-mediated ATP release confers FAM3A's suppression effects on hepatic gluconeogenesis and lipogenesis.

IF 16.7 2区 医学 Q1 MEDICINE, GENERAL & INTERNAL Military Medical Research Pub Date : 2024-06-27 DOI:10.1186/s40779-024-00543-6
Cheng-Qing Hu, Tao Hou, Rui Xiang, Xin Li, Jing Li, Tian-Tian Wang, Wen-Jun Liu, Song Hou, Di Wang, Qing-He Zhao, Xiao-Xing Yu, Ming Xu, Xing-Kai Liu, Yu-Jing Chi, Ji-Chun Yang
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引用次数: 0

Abstract

Background: Extracellular adenosine triphosphate (ATP) is an important signal molecule. In previous studies, intensive research had revealed the crucial roles of family with sequence similarity 3 member A (FAM3A) in controlling hepatic glucolipid metabolism, islet β cell function, adipocyte differentiation, blood pressure, and other biological and pathophysiological processes. Although mitochondrial protein FAM3A plays crucial roles in the regulation of glucolipid metabolism via stimulating ATP release to activate P2 receptor pathways, its mechanism in promoting ATP release in hepatocytes remains unrevealed.

Methods: db/db, high-fat diet (HFD)-fed, and global pannexin 1 (PANX1) knockout mice, as well as liver sections of individuals, were used in this study. Adenoviruses and adeno-associated viruses were utilized for in vivo gene overexpression or inhibition. To evaluate the metabolic status in mice, oral glucose tolerance test (OGTT), pyruvate tolerance test (PTT), insulin tolerance test (ITT), and magnetic resonance imaging (MRI) were conducted. Protein-protein interactions were determined by coimmunoprecipitation with mass spectrometry (MS) assays.

Results: In livers of individuals and mice with steatosis, the expression of ATP-permeable channel PANX1 was increased (P < 0.01). Hepatic PANX1 overexpression ameliorated the dysregulated glucolipid metabolism in obese mice. Mice with hepatic PANX1 knockdown or global PANX1 knockout exhibited disturbed glucolipid metabolism. Restoration of hepatic PANX1 rescued the metabolic disorders of PANX1-deficient mice (P < 0.05). Mechanistically, ATP release is mediated by the PANX1-activated protein kinase B-forkhead box protein O1 (Akt-FOXO1) pathway to inhibit gluconeogenesis via P2Y receptors in hepatocytes. PANX1-mediated ATP release also activated calmodulin (CaM) (P < 0.01), which interacted with c-Jun N-terminal kinase (JNK) to inhibit its activity, thereby deactivating the transcription factor activator protein-1 (AP1) and repressing fatty acid synthase (FAS) expression and lipid synthesis (P < 0.05). FAM3A stimulated the expression of PANX1 via heat shock factor 1 (HSF1) in hepatocytes (P < 0.05). Notably, FAM3A overexpression failed to promote ATP release, inhibit the expression of gluconeogenic and lipogenic genes, and suppress gluconeogenesis and lipid deposition in PANX1-deficient hepatocytes and livers.

Conclusions: PANX1-mediated release of ATP plays a crucial role in maintaining hepatic glucolipid homeostasis, and it confers FAM3A's suppressive effects on hepatic gluconeogenesis and lipogenesis.

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PANX1 介导的 ATP 释放赋予了 FAM3A 对肝脏葡萄糖生成和脂肪生成的抑制作用。
背景:细胞外三磷酸腺苷(ATP)是一种重要的信号分子。以往的深入研究揭示了序列相似性 3 家族成员 A(FAM3A)在控制肝脏糖脂代谢、胰岛β细胞功能、脂肪细胞分化、血压等生物和病理生理过程中的关键作用。尽管线粒体蛋白 FAM3A 通过刺激 ATP 释放激活 P2 受体通路在调节糖脂代谢中发挥着关键作用,但其促进肝细胞中 ATP 释放的机制仍未被揭示。方法:本研究使用了 db/db、高脂饮食(HFD)喂养和全基因 pannexin 1(PANX1)敲除小鼠以及个体肝脏切片。腺病毒和腺相关病毒被用于体内基因过表达或抑制。为了评估小鼠的代谢状况,进行了口服葡萄糖耐量试验(OGTT)、丙酮酸耐量试验(PTT)、胰岛素耐量试验(ITT)和磁共振成像(MRI)。蛋白质与蛋白质之间的相互作用是通过免疫共沉淀和质谱分析测定的:结果:在患有脂肪变性的个体和小鼠肝脏中,ATP 通透性通道 PANX1 的表达量增加(P 结论:PANX1 介导了脂肪变性的释放:PANX1 介导的 ATP 释放在维持肝糖脂平衡中起着至关重要的作用,它赋予了 FAM3A 对肝糖脂生成和脂肪生成的抑制作用。
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来源期刊
Military Medical Research
Military Medical Research Medicine-General Medicine
CiteScore
38.40
自引率
2.80%
发文量
485
审稿时长
8 weeks
期刊介绍: Military Medical Research is an open-access, peer-reviewed journal that aims to share the most up-to-date evidence and innovative discoveries in a wide range of fields, including basic and clinical sciences, translational research, precision medicine, emerging interdisciplinary subjects, and advanced technologies. Our primary focus is on modern military medicine; however, we also encourage submissions from other related areas. This includes, but is not limited to, basic medical research with the potential for translation into practice, as well as clinical research that could impact medical care both in times of warfare and during peacetime military operations.
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