Fenzl Felix Quirin, Lederer Eva-Maria, Brumma Louisa, Krüger Peter, Schroll Moritz, Wilming Frederic, Djabali Karima
Epigenetics of Aging, Department of Dermatology and Allergy, TUM School of Medicine, Munich Institute of Biomedical Engineering (MIBE), Technical University of Munich (TUM), Garching 85748, Germany.
Aging (Albany NY). 2025 Aug 27;17. doi: 10.18632/aging.206309.
Hutchinson-Gilford progeria syndrome (HGPS) is a rare and fatal disorder that causes premature aging, affecting approximately one in 4-8 million births. Most cases result from a mutation in the lamin A/C () gene, leading to the production of progerin, an aberrant lamin A variant that disrupts nuclear architecture and alters gene expression, including microRNA (miRNA) deregulation. This study aimed to investigate the molecular mechanisms underlying HGPS and aging using global miRNA sequencing to identify key deregulated miRNAs. Both miR-145 and miR-27b were significantly altered in HGPS. Functional experiments further revealed their crucial role in adipogenesis. Downregulation of these miRNAs in HGPS cells enhanced adipocyte differentiation, whereas their upregulation in control cells suppressed this process. These findings indicate that elevated levels of miR-145-5p and miR-27b-3p impair adipogenesis, providing mechanistic insights into HGPS pathophysiology and highlight new potential therapeutic avenues for both HGPS and metabolic disorders.
哈钦森-吉尔福德早衰综合征(HGPS)是一种罕见的致命性疾病,会导致早衰,在大约每400万至800万次出生中出现1例。大多数病例是由核纤层蛋白A/C(LMNA)基因的突变引起的,导致早老素的产生,这是一种异常的核纤层蛋白A变体,会破坏核结构并改变基因表达,包括微小RNA(miRNA)失调。本研究旨在利用全基因组miRNA测序来确定关键的失调miRNA,从而研究HGPS和衰老背后的分子机制。miR-145和miR-27b在HGPS中均有显著改变。功能实验进一步揭示了它们在脂肪生成中的关键作用。在HGPS细胞中下调这些miRNA可增强脂肪细胞分化,而在对照细胞中上调它们则会抑制这一过程。这些发现表明,miR-145-5p和miR-27b-3p水平升高会损害脂肪生成,为HGPS的病理生理学提供了机制性见解,并突出了针对HGPS和代谢紊乱的新的潜在治疗途径。
