半aphorin-3A 调节肝窦内皮细胞孔隙率并促进肝脂肪变性

IF 9.4 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Nature cardiovascular research Pub Date : 2024-06-14 DOI:10.1038/s44161-024-00487-z
Daniel Eberhard, Sydney Balkenhol, Andrea Köster, Paula Follert, Eric Upschulte, Philipp Ostermann, Philip Kirschner, Celina Uhlemeyer, Iannis Charnay, Christina Preuss, Sandra Trenkamp, Bengt-Frederik Belgardt, Timo Dickscheid, Irene Esposito, Michael Roden, Eckhard Lammert
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摘要

代谢功能障碍相关性脂肪性肝病(MASLD)以前被称为非酒精性脂肪肝,其发病率在全球范围内呈上升趋势,并与 2 型糖尿病和其他心脏代谢疾病相关。我们在此证明,在肥胖、2 型糖尿病和 MASLD 动物模型的肝窦状内皮细胞中,Sema3a 升高。在原代人肝窦状内皮细胞中,饱和脂肪酸会诱导 SEMA3A 的表达,单个等位基因的缺失足以降低饮食诱导肥胖小鼠的肝脏脂肪含量。我们的研究表明,semaphorin-3A 通过神经蛋白-1 和 LIM 结构域激酶 1 磷酸化 cofilin-1 的信号级联调节栅栏的数量。最后,在成年饮食诱导的肥胖小鼠中诱导性血管缺失 Sema3a 可降低肝脏脂肪含量并提高极低密度脂蛋白的分泌。因此,我们发现了一条将高脂血症与微血管缺损和 MASLD 早期发展联系起来的分子途径。Eberhard等人的研究表明,SEMA3A通过NRP1和LIMK1的信号传导调节肝窦内皮细胞的栅栏,揭示了高脂血症与脂肪性肝病发展的联系途径。
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Semaphorin-3A regulates liver sinusoidal endothelial cell porosity and promotes hepatic steatosis
Prevalence of metabolic dysfunction-associated steatotic liver disease (MASLD), formerly known as non-alcoholic fatty liver disease, increases worldwide and associates with type 2 diabetes and other cardiometabolic diseases. Here we demonstrate that Sema3a is elevated in liver sinusoidal endothelial cells of animal models for obesity, type 2 diabetes and MASLD. In primary human liver sinusoidal endothelial cells, saturated fatty acids induce expression of SEMA3A, and loss of a single allele is sufficient to reduce hepatic fat content in diet-induced obese mice. We show that semaphorin-3A regulates the number of fenestrae through a signaling cascade that involves neuropilin-1 and phosphorylation of cofilin-1 by LIM domain kinase 1. Finally, inducible vascular deletion of Sema3a in adult diet-induced obese mice reduces hepatic fat content and elevates very low-density lipoprotein secretion. Thus, we identified a molecular pathway linking hyperlipidemia to microvascular defenestration and early development of MASLD. Eberhard et al. show that SEMA3A regulates liver sinusoidal endothelial cell fenestrations by signaling through NRP1 and LIMK1, revealing a pathway that connects hyperlipidemia to the development of steatotic liver disease.
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