The chemistry of the nitrate–nitrite–nitric oxide pathway: regulating muscle oxygenation and exercise performance
Jing Liang, Taibin Huang, Jinping Li, Zhiyu Yang, Jin Ni, Yanchao Wang

TL;DR
This review explains how the nitrate-nitrite-nitric oxide pathway helps regulate muscle oxygen and exercise performance, beyond the traditional nitric oxide production method.
Contribution
The paper provides a detailed chemistry-focused analysis of the nitrate–nitrite–NO pathway and its role in muscle physiology.
Findings
Nitrate from diet is reduced to nitrite and then to NO, especially under hypoxic conditions in muscles.
Key proteins like xanthine oxidoreductase and deoxyhemoglobin help convert nitrite to NO in muscles.
Dietary nitrate may improve exercise performance, but results vary due to genetic and microbiome factors.
Abstract
Nitric oxide (NO) is a pleiotropic signaling molecule fundamentally involved in regulating skeletal muscle physiology, including blood flow, contractility, and metabolism. For decades, the synthesis of NO was attributed solely to the l-arginine-dependent nitric oxide synthase (NOS) enzymes. However, the discovery and characterization of the nitrate–nitrite–NO pathway have revealed an alternative, NOS-independent mechanism for NO generation. This pathway is particularly significant under hypoxic and acidic conditions, which are characteristic of exercising skeletal muscle. Dietary inorganic nitrate, abundant in green leafy vegetables and beetroot, is sequentially reduced to nitrite and then to bioactive NO. This review critically examines the intricate chemistry underpinning this pathway, from the initial enzymatic reduction of nitrate by both mammalian and microbial reductases to the…
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Taxonomy
TopicsNitric Oxide and Endothelin Effects · Cardiovascular and exercise physiology · Exercise and Physiological Responses
