儿童非酒精性脂肪肝的研究进展:从遗传学到脂质组学

Simona Riccio, R. Melone, Caterina Vitulano, Pierfrancesco Guida, Ivan Maddaluno, S. Guarino, P. Marzuillo, E. Miraglia del Giudice, A. Di Sessa
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引用次数: 3

摘要

由于肥胖的流行,非酒精性脂肪肝(NAFLD)是全球儿童医学关注的问题,与心脏代谢风险的增加密切相关。在过去的几十年里,关于NAFLD病理生理学的知识得到了很大的扩展。除了众所周知的关键NAFLD基因(包括PNPLA3基因的I148M变体、TM6SF2的E167K等位基因、GCKR基因、MBOAT7-TMC4 rs641738变体和HSD17B13基因中的rs72613567:TA变体),肠道微生物群也被证明具有有趣的致病作用。更有趣的是,证据增加了“多次命中”理论中涉及的新因素。特别是,组学决定因素已被强调为NAFLD诊断和治疗的潜在创新标志物。事实上,组学的不同分支,包括代谢组学、脂质组学(特别是鞘脂和神经酰胺)、转录组学(包括微小RNA)、表观基因组学(如DNA甲基化)、蛋白质组学和糖组学,通过在该领域提供深入的视角,代表了NAFLD发展中最具吸引力的致病因素。从这个角度来看,我们旨在全面概述儿童NAFLD的病理生理学,从最古老的致病因素(包括遗传学)到最新的有趣观点(如组学分支)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advances in pediatric non-alcoholic fatty liver disease: From genetics to lipidomics
As a result of the obesity epidemic, non-alcoholic fatty liver disease (NAFLD) represents a global medical concern in childhood with a closely related increased cardiometabolic risk. Knowledge on NAFLD pathophysiology has been largely expanded over the last decades. Besides the well-known key NAFLD genes (including the I148M variant of the PNPLA3 gene, the E167K allele of the TM6SF2, the GCKR gene, the MBOAT7-TMC4 rs641738 variant, and the rs72613567:TA variant in the HSD17B13 gene), an intriguing pathogenic role has also been demonstrated for the gut microbiota. More interestingly, evidence has added new factors involved in the “multiple hits” theory. In particular, omics determinants have been highlighted as potential innovative markers for NAFLD diagnosis and treatment. In fact, different branches of omics including metabolomics, lipidomics (in particular sphingolipids and ceramides), transcriptomics (including micro RNAs), epigenomics (such as DNA methylation), proteomics, and glycomics represent the most attractive pathogenic elements in NAFLD development, by providing insightful perspectives in this field. In this perspective, we aimed to provide a comprehensive overview of NAFLD pathophysiology in children, from the oldest pathogenic elements (including genetics) to the newest intriguing perspectives (such as omics branches).
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