University of Exeter Medical School, College of Medicine and Health, St. Luke's Campus, University of Exeter, Heavitree Road, Exeter, EX1 2LU, UK.
Sport and Health Sciences, College of Life and Environmental Sciences, St. Luke's Campus, University of Exeter, Heavitree Road, Exeter, EX1 2LU, UK.
Redox Biol. 2021 Jul;43:101974. doi: 10.1016/j.redox.2021.101974. Epub 2021 Apr 16.
Ingested inorganic nitrate (NO⁻) has multiple effects in the human body including vasodilation, inhibition of platelet aggregation, and improved skeletal muscle function. The functional effects of oral NO⁻ involve the in vivo reduction of NO⁻ to nitrite (NO⁻) and thence to nitric oxide (NO). However, the potential involvement of S-nitrosothiol (RSNO) formation is unclear. We hypothesised that the RSNO concentration ([RSNO]) in red blood cells (RBCs) and plasma is increased by NO⁻-rich beetroot juice ingestion. In healthy human volunteers, we tested the effect of dietary supplementation with NO⁻-rich beetroot juice (BR) or NO⁻-depleted beetroot juice (placebo; PL) on [RSNO], [NO⁻] and [NO⁻] in RBCs, whole blood and plasma, as measured by ozone-based chemiluminescence. The median basal [RSNO] in plasma samples (n = 22) was 10 (5-13) nM (interquartile range in brackets). In comparison, the median values for basal [RSNO] in the corresponding RBC preparations (n = 19) and whole blood samples (n = 19) were higher (p < 0.001) than in plasma, being 40 (30-60) nM and 35 (25-80) nM, respectively. The median RBC [RSNO] in a separate cohort of healthy subjects (n = 5) was increased to 110 (93-125) nM after ingesting BR (12.8 mmol NO⁻) compared to a corresponding baseline value of 25 (21-31) nM (Mann-Whitney test, p < 0.01). The median plasma [RSNO] in another cohort of healthy subjects (n = 14) was increased almost ten-fold to 104 (58-151) nM after BR supplementation (7 × 6.4 mmol of NO⁻ over two days, p < 0.01) compared to PL. In conclusion, RBC and plasma [RSNO] are increased by BR ingestion. In addition to NO⁻, RSNO may be involved in dietary NO⁻ metabolism/actions.
摄入无机硝酸盐(NO⁻)在人体内具有多种作用,包括血管扩张、抑制血小板聚集和改善骨骼肌功能。口服 NO⁻的功能作用涉及体内将 NO⁻还原为亚硝酸盐(NO⁻),然后再转化为一氧化氮(NO)。然而,S-亚硝基硫醇(RSNO)形成的潜在参与情况尚不清楚。我们假设富含硝酸盐的甜菜根汁摄入会增加红细胞(RBC)和血浆中的 RSNO 浓度([RSNO])。在健康的人类志愿者中,我们通过基于臭氧的化学发光法测试了富含硝酸盐的甜菜根汁(BR)或缺乏硝酸盐的甜菜根汁(安慰剂;PL)饮食补充对 RBC、全血和血浆中 [RSNO]、[NO⁻]和[NO⁻]的影响。(n=22)血浆样本中 [RSNO]的中位数基础值为 10(5-13)nM(括号内为四分位间距)。相比之下,相应 RBC 制剂(n=19)和全血样本(n=19)中 [RSNO]的中位数基础值高于血浆,分别为 40(30-60)nM 和 35(25-80)nM(p<0.001)。在另一组健康受试者(n=5)中,单独摄入 BR(12.8mmolNO⁻)后,红细胞 [RSNO]中位数增加到 110(93-125)nM,而相应的基线值为 25(21-31)nM(Mann-Whitney 检验,p<0.01)。另一组健康受试者(n=14)中,BR 补充后血浆 [RSNO]中位数增加近十倍,达到 104(58-151)nM,与 PL 相比(7×6.4mmolNO⁻在两天内,p<0.01)。总之,BR 摄入会增加 RBC 和血浆 [RSNO]。除了 NO⁻,RSNO 可能参与了饮食 NO⁻代谢/作用。
