胰岛素-AKT1-YBX1对ANGPTL8的调控促进OSA相关血脂异常的脂肪生成

medRxiv - Respiratory Medicine Pub Date : 2024-06-24 DOI:10.1101/2024.06.23.24309370

Feng Liu, Yuenan Liu, Haolin Yuan, Anzhao Wang, Shengming Wang, Xu Xu, Junhui Hu, Jinhong Shen, Yiming Hu, Xinyi Li, Niannian Li, Zhenfei Gao, Xiaoxu Zhang, Xiaoman Zhang, Yupu Liu, Huajun Xu, Hongliang Yi, Jian Guan, Zhiqiang Li, Yongxu Zhao, Shankai Yin

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引用次数: 0

摘要

血脂异常是阻塞性睡眠呼吸暂停（OSA）诱发的代谢综合征的特征之一，但对其机制仍知之甚少。我们对 OSA 队列中的血脂特征进行了全基因组关联研究，发现 ANGPTL8 中的 SNP rs3745683 与多种血脂特征的降低显著相关。ANGPTL8是一种重要的致脂激素，也是代谢综合征的潜在治疗靶点，与健康对照组相比，它在OSA患者中的表达升高，与胰岛素水平的升高密切相关。值得注意的是，ANGPTL8的表达可因胰岛素刺激而上调，这表明它是一种胰岛素反应性激素，可调节OSA患者的血脂异常。从机理上讲，SNP rs3745683通过抑制ANGPTL8与转录因子YBX1的结合，减弱了ANGPTL8的转录。胰岛素促使 AKT1 在 Ser102 处磷酸化 YBX1，促进 YBX1 的核转位，进而调节 ANGPTL8 的表达和脂质合成。在小鼠肝脏中特异性敲除 YBX1 证实了其对 ANGPTL8 表达和体内肝脂合成的必要性。我们的研究结果突出表明，ANGPTL8 是 OSA 患者血脂异常的关键调节因子，这为控制 OSA 代谢综合征提供了一条很有前景的治疗途径。

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Insulin-AKT1-YBX1 Regulation of ANGPTL8 Promote Lipogenesis in OSA-Associated Dyslipidemia

Dyslipidemia is a hallmark of obstructive sleep apnea (OSA)-induced metabolic syndrome, yet the mechanisms remain poorly understood. We conducted a genome-wide association study on lipid traits in the OSA cohorts, identifying the SNP rs3745683 in ANGPTL8, significantly associated with reductions in multiple lipid traits. ANGPTL8, an essential lipogenic hormone and potential therapeutic target for metabolic syndrome, showed elevated expression in OSA patients compared to healthy controls, strongly correlated with increased insulin levels. Notably, ANGPTL8 expression can be upregulated by insulin stimulation, indicating it as an insulin-responsive hormone regulating dyslipidemia in OSA. Mechanistically, SNP rs3745683 attenuated ANGPTL8 transcription by inhibiting its binding to transcription factor YBX1. Insulin prompted AKT1 to phosphorylate YBX1 at Ser102, facilitating YBX1's nuclear translocation and subsequent regulation of ANGPTL8 expression and lipid synthesis. Specific knockdown of YBX1 in mouse liver confirmed its necessity for ANGPTL8 expression and hepatic lipid synthesis in vivo. Our findings highlight ANGPTL8 as a critical regulator of dyslipidemia in OSA patients, offering a promising therapeutic avenue for managing metabolic syndrome in OSA.

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medRxiv - Respiratory Medicine

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