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肌醇六磷酸途径在健康和疾病中的作用。

The inositol pyrophosphate pathway in health and diseases.

机构信息

Department of Pharmacology and Physiology, Saint Louis University School of Medicine, Saint Louis, MO 63104, U.S.A.

出版信息

Biol Rev Camb Philos Soc. 2018 May;93(2):1203-1227. doi: 10.1111/brv.12392. Epub 2017 Dec 27.

DOI:10.1111/brv.12392
PMID:29282838
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6383672/
Abstract

Inositol pyrophosphates (IPPs) are present in organisms ranging from plants, slime moulds and fungi to mammals. Distinct classes of kinases generate different forms of energetic diphosphate-containing IPPs from inositol phosphates (IPs). Conversely, polyphosphate phosphohydrolase enzymes dephosphorylate IPPs to regenerate the respective IPs. IPPs and/or their metabolizing enzymes regulate various cell biological processes by modulating many proteins via diverse mechanisms. In the last decade, extensive research has been conducted in mammalian systems, particularly in knockout mouse models of relevant enzymes. Results obtained from these studies suggest impacts of the IPP pathway on organ development, especially of brain and testis. Conversely, deletion of specific enzymes in the pathway protects mice from various diseases such as diet-induced obesity (DIO), type-2 diabetes (T2D), fatty liver, bacterial infection, thromboembolism, cancer metastasis and aging. Furthermore, pharmacological inhibition of the same class of enzymes in mice validates the therapeutic importance of this pathway in cardio-metabolic diseases. This review critically analyses these findings and summarizes the significance of the IPP pathway in mammalian health and diseases. It also evaluates benefits and risks of targeting this pathway in disease therapies. Finally, future directions of mammalian IPP research are discussed.

摘要

肌醇焦磷酸盐(IPPs)存在于从植物、黏菌和真菌到哺乳动物等生物体中。不同类别的激酶从肌醇磷酸盐(IPs)生成不同形式的含能量二磷酸酯的 IPPs。相反,多聚磷酸盐磷酸水解酶通过多种机制使 IPPs 去磷酸化以再生相应的 IPs。IPPs 和/或其代谢酶通过调节许多蛋白质来调节各种细胞生物学过程。在过去的十年中,在哺乳动物系统中进行了广泛的研究,特别是在相关酶的敲除小鼠模型中。这些研究的结果表明 IPP 途径对器官发育的影响,特别是对脑和睾丸的影响。相反,该途径中特定酶的缺失可保护小鼠免受各种疾病的影响,如饮食诱导的肥胖症(DIO)、2 型糖尿病(T2D)、脂肪肝、细菌感染、血栓栓塞、癌症转移和衰老。此外,在小鼠中对同一类酶的药理学抑制验证了该途径在心脑血管疾病治疗中的重要性。本综述批判性地分析了这些发现,并总结了 IPP 途径在哺乳动物健康和疾病中的重要性。它还评估了针对该途径进行疾病治疗的益处和风险。最后,讨论了哺乳动物 IPP 研究的未来方向。

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