内分泌学
内科学
三体
新陈代谢
生物
唐氏综合症
人口
转录组
胆汁酸
肝星状细胞
脂质代谢
中间代谢
核糖核酸
非整倍体
基因表达
基因
异常
肝脏代谢
胎儿
细胞
排泄
药物代谢
肝活检
生物标志物
作者
Lauren N. Dunn,Yingli Duan,Neetha Paul Eduthan,Kyndal A. Schade,Katherine A. Waugh,Chrisstopher Brown,Angela L. Rachubinski,Ariel E. Timkovich,J. Orlicky David,Matthew D. Galbraith,Joaquin M. Espinosa,Kelly D. Sullivan
出处
期刊:Cell Reports
[Cell Press]
日期:2026-01-01
卷期号:45 (1): 116835-116835
标识
DOI:10.1016/j.celrep.2025.116835
摘要
Trisomy 21 (T21) gives rise to Down syndrome (DS), the most commonly occurring chromosomal abnormality in humans. T21 affects nearly every organ and tissue system in the body, predisposing individuals with DS to congenital heart defects, autoimmunity, and Alzheimer's disease, among other co-occurring conditions. Here, using multi-omic analysis of plasma from more than 400 people, we report broad metabolic changes in the population with DS typified by increased bile acid levels and protein signatures of liver dysfunction. In a mouse model of DS, we demonstrate conservation of perturbed bile acid metabolism accompanied by liver pathology. Bulk RNA sequencing revealed widespread impacts of the Dp16 model on hepatic metabolism and inflammation, while single-cell transcriptomics highlighted cell types associated with these observations. Modulation of dietary fat profoundly impacted gene expression, bile acids, and liver pathology. Overall, these data represent evidence for altered hepatic metabolism in DS that could be modulated by diet.
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