尼曼-匹克型疾病-鞘脂和胆固醇代谢先天性错误的概述

IF 14 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Frank W. Pfrieger
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引用次数: 5

摘要

细胞内脂质稳态紊乱可引起人类疾病。阐明潜在的机制和开发有效的治疗方法是生物医学研究面临的巨大挑战。典型的案例是两种罕见的,常染色体隐性的,最终致命的溶酶体疾病,历史上被命名为“尼曼-匹克”,以纪念医生,他们的开创性观察导致了他们的发现。酸性鞘磷脂酶缺乏(ASMD)和尼曼-匹克C型病(NPCD)是由鞘磷脂磷脂二酯酶1 (SMPD1)和NPC细胞内胆固醇转运蛋白1 (NPC1)或NPC细胞内胆固醇转运蛋白2 (NPC2)基因的特异性变异引起的,这些基因分别扰乱了鞘磷脂和胆固醇两种关键膜组分的稳态。这些疾病的严重形式的患者表现出内脏和神经症状,并屈服于过早死亡。本摘要追溯了尼曼-匹克病的曲折发现,强调了遗传罪魁祸首和细胞机制方面的重要进展,并揭示了改善诊断和探索新的治疗方法的努力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Niemann-Pick type diseases – A synopsis of inborn errors in sphingolipid and cholesterol metabolism

Disturbances of lipid homeostasis in cells provoke human diseases. The elucidation of the underlying mechanisms and the development of efficient therapies represent formidable challenges for biomedical research. Exemplary cases are two rare, autosomal recessive, and ultimately fatal lysosomal diseases historically named "Niemann-Pick" honoring the physicians, whose pioneering observations led to their discovery. Acid sphingomyelinase deficiency (ASMD) and Niemann-Pick type C disease (NPCD) are caused by specific variants of the sphingomyelin phosphodiesterase 1 (SMPD1) and NPC intracellular cholesterol transporter 1 (NPC1) or NPC intracellular cholesterol transporter 2 (NPC2) genes that perturb homeostasis of two key membrane components, sphingomyelin and cholesterol, respectively. Patients with severe forms of these diseases present visceral and neurologic symptoms and succumb to premature death. This synopsis traces the tortuous discovery of the Niemann-Pick diseases, highlights important advances with respect to genetic culprits and cellular mechanisms, and exposes efforts to improve diagnosis and to explore new therapeutic approaches.

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来源期刊
Progress in lipid research
Progress in lipid research 生物-生化与分子生物学
CiteScore
24.50
自引率
2.20%
发文量
37
审稿时长
14.6 weeks
期刊介绍: The significance of lipids as a fundamental category of biological compounds has been widely acknowledged. The utilization of our understanding in the fields of biochemistry, chemistry, and physiology of lipids has continued to grow in biotechnology, the fats and oils industry, and medicine. Moreover, new aspects such as lipid biophysics, particularly related to membranes and lipoproteins, as well as basic research and applications of liposomes, have emerged. To keep up with these advancements, there is a need for a journal that can evaluate recent progress in specific areas and provide a historical perspective on current research. Progress in Lipid Research serves this purpose.
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