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烟酰胺:通过 SIRT1、mTOR 和时钟基因对代谢功能障碍的监督。

Nicotinamide: Oversight of Metabolic Dysfunction Through SIRT1, mTOR, and Clock Genes.

机构信息

Cellular and Molecular Signaling New York, New York 10022, United States.

出版信息

Curr Neurovasc Res. 2020;17(5):765-783. doi: 10.2174/1567202617999201111195232.

DOI:10.2174/1567202617999201111195232
PMID:33183203
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7914159/
Abstract

Metabolic disorders that include diabetes mellitus present significant challenges for maintaining the welfare of the global population. Metabolic diseases impact all systems of the body and despite current therapies that offer some protection through tight serum glucose control, ultimately such treatments cannot block the progression of disability and death realized with metabolic disorders. As a result, novel therapeutic avenues are critical for further development to address these concerns. An innovative strategy involves the vitamin nicotinamide and the pathways associated with the silent mating type information regulation 2 homolog 1 (Saccharomyces cerevisiae) (SIRT1), the mechanistic target of rapamycin (mTOR), mTOR Complex 1 (mTORC1), mTOR Complex 2 (mTORC2), AMP activated protein kinase (AMPK), and clock genes. Nicotinamide maintains an intimate relationship with these pathways to oversee metabolic disease and improve glucose utilization, limit mitochondrial dysfunction, block oxidative stress, potentially function as antiviral therapy, and foster cellular survival through mechanisms involving autophagy. However, the pathways of nicotinamide, SIRT1, mTOR, AMPK, and clock genes are complex and involve feedback pathways as well as trophic factors such as erythropoietin that require a careful balance to ensure metabolic homeostasis. Future work is warranted to gain additional insight into these vital pathways that can oversee both normal metabolic physiology and metabolic disease.

摘要

代谢紊乱包括糖尿病,这给全球人口的健康带来了巨大挑战。代谢性疾病影响身体的所有系统,尽管目前的治疗方法通过严格控制血清葡萄糖水平提供了一定的保护,但最终这些治疗方法无法阻止代谢紊乱导致的残疾和死亡的进展。因此,需要开辟新的治疗途径来解决这些问题。一种创新策略涉及维生素烟酰胺以及与沉默交配型信息调节 2 同源物 1(酿酒酵母)(SIRT1)、雷帕霉素靶蛋白(mTOR)、mTOR 复合物 1(mTORC1)、mTOR 复合物 2(mTORC2)、AMP 激活蛋白激酶(AMPK)和时钟基因相关的途径。烟酰胺与这些途径保持着密切的关系,以监测代谢疾病并改善葡萄糖利用、限制线粒体功能障碍、阻断氧化应激、可能作为抗病毒治疗,并通过涉及自噬的机制促进细胞存活。然而,烟酰胺、SIRT1、mTOR、AMPK 和时钟基因的途径很复杂,涉及反馈途径以及营养因子,如促红细胞生成素,需要仔细平衡以确保代谢稳态。未来的研究工作需要进一步深入了解这些重要途径,以监测正常代谢生理学和代谢性疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/45e4/7914159/c6a95af80aab/nihms-1646798-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/45e4/7914159/c6a95af80aab/nihms-1646798-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/45e4/7914159/c6a95af80aab/nihms-1646798-f0001.jpg

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