Advanced search
Publication Cover
Drug Metabolism Reviews Volume 19, 1988 - Issue 3-4
Submit an article Journal homepage
166
Views
71
CrossRef citations to date
0
Altmetric
Research Article

Factors Affecting Metabolic Activity of the Intestinal Microflora

I. R. Rowland BIBRA, Woodmansterne Road Carshalton, Surrey, SMS 4DS, UK
Pages 243-261 | Published online: 22 Sep 2008

References

  • Anderson R. L. Response of male rats to sodium saccharin ingestion: urine composition and mineral balance. Food Cosmet. Toxicol 1979; 17: 195–200
  • Anderson R. L., Kirkland J. J. The effect of sodium saccharin in the diet on caecal microflora. Food Cosmet. Toxicol 1980; 18: 353–355
  • Borriello S. P., Reed P. J., Dolby J. M., Barlcay F. E., Webster A. D.B. Microbial and metabolic profile of achlorhydric stomach: comparison of pernicious anaemia and hypogammaglobulinaemia. J. Clin. Pathol 1985; 38: 946–953
  • Bickel M. H., Burkard B., Meier-Strasser E., van den Broekboot M. Entero-bacterial formation of cyclohexylamine in rats ingesting cyclamate. Xenobiotica 1974; 14: 425
  • Coutts T. M., Alldrick A. J., Rowland I. R. Use of continuous culture to study the gastric microflora of a hypochlorhydric patient. Toxic In Vitro 1987; 1: 17–21
  • Cummings J. H., Branch W. J. Postulated mechanisms whereby fiber may protect against large bowel cancer. Dietary Fiber in Health and Disease, G. V. Vahouny, D. Kritchevsky. Plenum Press, New York 1982; 313–325
  • Cummings J. H., Englyst H. N., Wiggins H. S. The role of carbohydrates in lower gut function. Nutr. Rev. 1986; 44: 50–54
  • Doherty R. A., Gates A. Epidermic methylmercury poisoning: application of a mouse model. Pediat. Res. 1973; 7: 319
  • Dolby J. M., Webster A. D.B., Borriello S. P., Barclay F. E., Bartholomew B. A., Hill M. J. Bacterial colonization and nitrite concentration in the achlorhydric stomachs of patients with primary hypogammaglobulinaemia or classical pernicious anaemia. Scand. J. Gastroenterol 1984; 19: 105–110
  • Drasar B. S. The bacterial flora of the intestine. Role of the Gut Flora in Toxicity and Cancer, I. R. Rowland. Academic Press, London 1988; 23–38
  • Drasar B. S., Barrow P. Intestinal Microbiology. Aspects of Microbiology. American Society for Microbiology. 1985; Vol. 10
  • Gaunt I. F., Hardy J., Grasso P., Gangolli S. D., Butterworth K. R. Long-term toxicity of cyclohex-ylamine hydrochloride in the rat. Food Cosmet. Toxicol 1976; 14: 255
  • Goldin B. R., Gorbach S. L. The relationship between diet and rat fecal bacterial enzymes implicated in colon cancer. J. Natl. Cancer Inst 1976; 57: 371–375
  • IARC. Saccharin (saccharin, sodium saccharin, calcium saccharin and ortho-toluene-sulphonamide). IARC Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans, Vol. 22: Some Non-nutritive Sweetening Agents. IARC, Lyon 1980, 1980
  • Jacobs L. R., Lupton J. R. Relationship between colonic luminal pH, cell proliferation and colon carcinogenesis in 1,2-dimethylhydrazine treated rats fed high fiber diets. Cancer Res 1986; 46: 1727–1734
  • Jones S. M., Davies P. W., Savage A. Gastric juice nitrite and gastric cancer. Lancet 1978; i: 1355
  • Lutz W. K., Schlatter C. Saccharin does not bind to DNA of liver or bladder in the rat. Chem.-Biol. Interact 1977; 19: 253
  • Macdonald La., Madder J. A., Bussard R. G. The role of rutin and quercetin in stimulating flavonol glycosidase activity by cultured cell-free microbial preparations of human feces and saliva. Mutation Res 1983; 122: 95–102
  • Mallett A. K., Bearne C. A., Rowland I. R., Farthing M. J.G., Cole C. B., Fuller R. The use of rats associated with a human faecal flora as a model for studying the effects of diet on the human gut microflora. J. Appl. Bacteriol 1987; 62: 39–46
  • Mallett A. K., Rowland I. R., Bearne C. A. Modification of rat caecal microbial biotransformation activities by dietary saccharin. Toxicology 1985a; 36: 253–262
  • Mallett A. K., Rowland I. R., Bearne C. A., Purchase R., Gangolli S. D. Metabolic adaptation of rat faecal microflora to cyclamate in vitro. Food Chem. Toxicol 1985b; 23: 1029–1034
  • Mallett A. K., Rowland I. R. Factors affecting the gut microflora. Role of the Gut Flora in Toxicity and Cancer, I. R. Rowland. Academic Press, London 1988; 347–383
  • Milton-Thompson G. J., Lightfoot N. F., Ahmet Z., Hunt R. H., Barnard J., Bavin P. M., Brimble-Combe R. W., Darkin D. W., Moore P. J., Viney N. Intragastric acidity, bacteria, nitrite and TV-nitroso compounds before, during and after cimetidine treatment. Lancet 1982; i: 1091–1095
  • Mirsalis J. C., Hamm T. E., Sherrill J. M., Butter-Worth B. E. The role of gut flora in the genotoxicity of dinitrotoluenes in rats. Nature (London) 1982; 195: 322–323
  • Peppercorn M. A., Goldman P. The role of intestinal bacteria in the metabolism of salicylazosulfapyridine. J. Pharmacol. Exper. Ther 1972; 181: 555–562
  • Reddy B. S., Pohl L. R., Krishna G. The requirement of the gut flora in nitrobenzene-induced methaemoglobinaem-ia in rats. Biochem. Pharmacol 1976; 25: 1119–1122
  • Reed P. I., Smith P. L.R., Haines K., House F. R., Walters C. L. Effects of cimetidine on gastric juice N-nitrosamine concentration. Lancet 1981; i: 553–555
  • Renwick A. G. Microbial metabolism of drugs. Drug Metabolism from Microbe to Man, P. Jenner, D. V. Parke. Taylor and Francis, London 1976; 169
  • Renwick A. G., Williams R. T. The fate of cyclamate in man and other species. Biochem. J. 1972; 129: 869
  • Rowland I. R., Davies M. J., Evans J. G. Tissue content of mercury in rats given methylmercuric chloride orally: influence of intestinal flora. Arch. Environ. Health 1980; 35: 155–160
  • Rowland I. R., Mallett A. K., Bearne C. A., Farthing M. J.G. Enzymic activities of the hindgut microflora of laboratory animals and man. Xenobiotica 1986; 16: 519–523
  • Rowland I. R., Mallett A. K., Wise A. The effect of diet on the mammalian gut flora and its metabolic activities. CRC Crit. Rev. Toxicol 1985; 16: 31–103
  • Rowland I. R., Robinson R. D., Doherty R. A. Effects of diet on mercury metabolism and excretion in mice given methylmercury: role of the gut flora. Arch. Environ. Health 1984; 39: 401–408
  • Rowland I. R., Walker R. The gastro-intestinal tract in food toxicology. Toxic Hazards in Food, D. M. Conning, A. Lansdown. Croom-Helm, London 1983; 183–274
  • Ruddell W. S.J., Bone E. S., Hill M. J., Blendis L. M., Walters C. L. Gastric juice nitrite. A risk factor for cancer in the hypochlorhydric stomach?. Lancet 1976; ii: 1037–1039
  • Samelson S. L., Nelson R. L., Nyhus L. M. Protective role of faecal pH in experimental colon carcinogenesis. J. Royal Soc. Med. 1985; 78: 230–233
  • Savage D. C. Present view of the normal flora. The Germ-Free Animal in Biomedical Research, M. E. Coates, B. E. Gustafsson. Laboratory Animals Ltd., London 1984; 119–140
  • Scheline R. R. Metabolism of foreign compounds by gastrointestinal microorganisms. Pharmacology 1973; 25: 451–523
  • Simon G. L., Gorbach S. L. Intestinal flora in health and disease. Physiology of the gastrointestinal tract, L. J. Johnson. Raven Press, New York 1981; 1361–1380
  • Sims J., Renwick A. G. The effects of saccharin on the metabolism of dietary tryptophan to indole, a known cocarcinogen for the urinary bladder of the rat. Toxicol. Appl. Pharmacol 1983; 67: 132
  • Stockbrugger R. W., Cotton P. B., Eugenides N., Bartholomew B. A., Hill M. J., Walters C. L. Intragastric nitrites, nitrosamines and bacterial overgrowth during cimetidine treatment. Gut 1982; 23: 1048–1054
  • Thornton J. R. High colonic pH promotes colorectal cancer. Lancet 1981; 1081–1083, May16
  • Vince A. J., Dawson A. M., Park N., O'Grady F. Ammonia production by intestinal bacteria. Gut 1973; 14: 171–172
  • Walker A. R.P., Walker B. F., Segel I. Faecal pH value and its modification by dietary means in South African black and white school children. S. Afr. Med. J. 1979; 55: 495–498
  • Walsh C. T. The influence of age on the gastrointestinal absorption of mercuric chloride and methylmercuric chloride in the rat. Environ. Res. 1982; 27: 412–420
  • Walters C. L., Carr F. P.A., Dyke C. S., Saxby M. J., Smith P. L.R., Walker R. Nitrite sources and nitrosamine formation in vitro and in vivo. Food Cosmet. Toxicol 1979; 17: 473–479
  • Ward F. W., Coates M. E., Walker R. Nitrate reduction, gastrointestinal pH and N-nitrosation in gnotobiotic and conventional rats. Food Chem. Toxicol 1986; 24: 17–22
  • Wise A., Mallett A. K., Rowland I. R. Dietary fibre, bacterial metabolism and toxicity of nitrate in the rat. Xenobiotica 1982; 12: 111–118
  • Zachariah P. K., Juchau M. R. The role of gut flora in the reduction of aromatic nitro-groups. Drug Metab. Dispos 1974; 2: 74–78

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.