Journal
NITRIC OXIDE-BIOLOGY AND CHEMISTRY
Volume 109, Issue -, Pages 42-49Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.niox.2021.03.003
Keywords
Nitrate; Nitrite; Nitric oxide; Skeletal muscle; Nitrate reductase activity; Xanthine oxidoreductase; Soleus; EDL; Gluteus
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Nitrate and nitrite ions serve as nitric oxide sources in mammals, with rat skeletal muscle potentially acting as a reservoir for nitrate. Manipulating dietary nitrate levels can affect the levels of nitrate and nitrite in liver, blood, and muscle tissues. Additionally, there is a complex control of muscle nitrate levels, potentially involving multiple processes to maintain intracellular levels.
The roles of nitrate and nitrite ions as nitric oxide (NO) sources in mammals, complementing NOS enzymes, have recently been the focus of much research. We previously reported that rat skeletal muscle serves as a nitrate reservoir, with the amount of stored nitrate being highly dependent on dietary nitrate availability, as well as its synthesis by NOS1 enzymes and its subsequent utilization. We showed that at conditions of increased NO need, this nitrate reservoir is used in situ to generate nitrite and NO, at least in part via the nitrate reductase activity of xanthine oxidoreductase (XOR). We now further investigate the dynamics of nitrate/nitrite fluxes in rat skeletal muscle after first increasing nitrate levels in drinking water and then returning to the original intake level. Nitrate/nitrite levels were analyzed in liver, blood and several skeletal muscle samples, and expression of proteins involved in nitrate metabolism and transport were also measured. Increased nitrate supply elevated nitrate and nitrite levels in all measured tissues. Surprisingly, after high nitrate diet termination, levels of both ions in liver and all muscle samples first declined to lower levels than the original baseline. During the course of the overall experiment there was a gradual increase of XOR expression in muscle tissue, which likely led to enhanced nitrate to nitrite reduction. We also noted differences in basal levels of nitrate in the different types of muscles. These findings suggest complex control of muscle nitrate levels, perhaps with multiple processes to preserve its intracellular levels.
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