Effect of ascorbic acid dose taken with a meal on nitrosoproline excretion in subjects ingesting nitrate and proline.

We determined the dose of ascorbic acid (ASC) given to subjects with a standard 400-calorie meal that inhibited N-nitrosoproline (NPRO) formation when we gave 400 mg of nitrate one hour before and 500 mg of L-proline with the standard meal. Volunteers consumed their normal US diets but restricted their intakes of nitrate, proline, NPRO, and ASC. NPRO and N-nitrososarcosine (NSAR) were determined in the 18-hour urines by methylation followed by gas chromatography-thermal energy analysis. Mean NPRO yields were 10.7, 41.9, 33.2, 22.3, and 23.1 nmol for groups of 9-25 subjects taking proline alone, proline + nitrate, and proline + nitrate + 120, 240, and 480 mg of ASC, respectively. There was a significant trend to lower NPRO yields as the ASC dose was raised. These results correspond to inhibitions by ASC of 28%, 62%, and 60%, respectively. Pairwise comparison showed that each group taking ASC formed significantly less NPRO than the group given only proline + nitrate. Mean NSAR yields were 9.0 nmol when proline alone was taken and 16.9-24.0 nmol when proline + nitrate + ASC was taken, with no trend to increase as the ASC dose was raised. However, NPRO and NSAR yields in individual urines were correlated with each other. We concluded that 120 mg of ASC taken with each meal (360 mg/day) would significantly reduce in vivo nitrosamine formation, similar to tests by Leaf and co-workers (Carcinogenesis 8, 791-795, 1987) in which the reactants were taken between meals. The inhibitory dose of ASC may be < 120 mg/meal when doses of nitrate and proline are not taken.

[1]  J. B. Park,et al.  Vitamin C pharmacokinetics in healthy volunteers: evidence for a recommended dietary allowance. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[2]  K. Reimers,et al.  Dosing time with ascorbic acid and nitrate, gum and tobacco chewing, fasting, and other factors affecting N-nitrosoproline formation in healthy subjects taking proline with a standard meal. , 1995, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[3]  S. Mirvish Role of N-nitroso compounds (NOC) and N-nitrosation in etiology of gastric, esophageal, nasopharyngeal and bladder cancer and contribution to cancer of known exposures to NOC. , 1995, Cancer letters.

[4]  A. Bendich,et al.  The health effects of vitamin C supplementation: a review. , 1995, Journal of the American College of Nutrition.

[5]  S. Mirvish,et al.  Experimental evidence for inhibition of N-nitroso compound formation as a factor in the negative correlation between vitamin C consumption and the incidence of certain cancers. , 1994, Cancer research.

[6]  T C Campbell,et al.  Geographic association between urinary excretion of N‐nitroso compounds and oesophageal cancer mortality in china , 1993, International journal of cancer.

[7]  D. Roe,et al.  Influence of fruit and vegetable juices on the endogenous formation of N-nitrosoproline and N-nitrosothiazolidine-4-carboxylic acid in humans on controlled diets. , 1992, Carcinogenesis.

[8]  T. Maynard,et al.  N-nitrosoproline excretion by rural Nebraskans drinking water of varied nitrate content. , 1992, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[9]  H. Stich Teas and tea components as inhibitors of carcinogen formation in model systems and man. , 1992, Preventive medicine.

[10]  G. Block,et al.  Vitamin C and cancer prevention: the epidemiologic evidence. , 1991, The American journal of clinical nutrition.

[11]  D. Zavala,et al.  Urinary excretion of nitrate, N-nitrosoproline, 3-methyladenine, and 7-methylguanine in a Colombian population at high risk for stomach cancer. , 1991, Cancer research.

[12]  H. Bartsch,et al.  Urinary excretion of N‐nitrosamino acids and nitrate by inhabitants of high‐ and low‐risk areas for stomach cancer in Poland , 1989, International journal of cancer.

[13]  H. Bartsch,et al.  Human exposure to endogenous N-nitroso compounds: quantitative estimates in subjects at high risk for cancer of the oral cavity, oesophagus, stomach and urinary bladder. , 1989, Cancer surveys.

[14]  D. Roe,et al.  Influence of ascorbic acid dose on N-nitrosoproline formation in humans. , 1987, Carcinogenesis.

[15]  H. Bartsch,et al.  Urinary excretion of N-nitrosamino acids and nitrate by inhabitants in high- and low-risk areas for stomach cancer in northern Japan. , 1987, IARC scientific publications.

[16]  M. Blettner,et al.  Urinary excretion of N-nitrosamino acids and nitrate by inhabitants of high- and low-risk areas for esophageal cancer in Northern China: endogenous formation of nitrosoproline and its inhibition by vitamin C. , 1986, Cancer research.

[17]  H. Bartsch,et al.  Quantitative estimation of endogenous nitrosation in humans by monitoring N-nitrosoproline excreted in the urine. , 1981, Cancer research.

[18]  J. Meyer,et al.  Gastric emptying of solid food in normal man and after subtotal gastrectomy and truncal vagotomy with pyloroplasty. , 1977, Gastroenterology.

[19]  B. K. Watt,et al.  Composition of foods: raw, processed, prepared. , 1963 .