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这可是个高深莫测的问题——为什么膳食硝酸盐难以被“超越”!第一部分:硝酸盐-亚硝酸盐-一氧化氮途径认识过程中的波折。

It is rocket science - why dietary nitrate is hard to 'beet'! Part I: twists and turns in the realization of the nitrate-nitrite-NO pathway.

作者信息

Khatri Jibran, Mills Charlotte Elizabeth, Maskell Perry, Odongerel Chimed, Webb Andrew James

机构信息

King's College London British Heart Foundation Centre, Cardiovascular Division, Department of Clinical Pharmacology, St. Thomas, Hospital, London, SE1 7EH, UK.

Department of Dietetics and Nutrition, Division of Diabetes and Nutritional Sciences, King's College London, London, SE1 0NH, UK.

出版信息

Br J Clin Pharmacol. 2017 Jan;83(1):129-139. doi: 10.1111/bcp.12913. Epub 2016 May 6.

DOI:10.1111/bcp.12913
PMID:26896747
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5338143/
Abstract

Dietary nitrate (found in green leafy vegetables, such as rocket, and in beetroot) is now recognized to be an important source of nitric oxide (NO), via the nitrate-nitrite-NO pathway. Dietary nitrate confers several cardiovascular beneficial effects on blood pressure, platelets, endothelial function, mitochondrial efficiency and exercise. While this pathway may now seem obvious, its realization followed a rather tortuous course over two decades. Early steps included the discovery that nitrite was a source of NO in the ischaemic heart but this appeared to have deleterious effects. In addition, nitrate-derived nitrite provided a gastric source of NO. However, residual nitrite was not thought to be absorbed systemically. Nitrite was also considered to be physiologically inert but potentially carcinogenic, through N-nitrosamine formation. In Part 1 of a two-part Review on the nitrate-nitrite-NO pathway we describe key twists and turns in the elucidation of the pathway and the underlying mechanisms. This provides the critical foundation for the more recent developments in the nitrate-nitrite-NO pathway which are covered in Part 2.

摘要

膳食硝酸盐(存在于绿叶蔬菜中,如芝麻菜和甜菜根)现在被认为是一氧化氮(NO)的重要来源,通过硝酸盐-亚硝酸盐-NO途径。膳食硝酸盐对血压、血小板、内皮功能、线粒体效率和运动具有多种心血管有益作用。虽然这条途径现在看起来可能很明显,但它的发现过程在二十多年里相当曲折。早期的步骤包括发现亚硝酸盐是缺血性心脏中NO的来源,但这似乎有有害影响。此外,硝酸盐衍生的亚硝酸盐提供了胃中的NO来源。然而,残留的亚硝酸盐不被认为会被全身吸收。亚硝酸盐也被认为是生理惰性的,但通过亚硝胺的形成可能具有致癌性。在关于硝酸盐-亚硝酸盐-NO途径的两部分综述的第1部分中,我们描述了该途径阐明过程中的关键曲折以及潜在机制。这为第2部分所涵盖的硝酸盐-亚硝酸盐-NO途径的最新进展提供了关键基础。

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