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IV.A.3 - Vitamin C

from IV.A - Vitamins

Published online by Cambridge University Press:  28 March 2008

By
R. E. Hughes
Edited by
Kenneth F. Kiple  and
Kriemhild Coneè Ornelas
Kenneth F. Kiple
Affiliation:
Bowling Green State University, Ohio
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Summary

In delineating the history of a vitamin, we can often recognize four chronological phases. First, there is the description of a disease of unknown etiology, and second, there is the description of an empirical cure for the disease. Following this step, and often closely associated with it, is the identification of the curative factor – which perforce then becomes known as a vitamin. In the fourth phase the mode of action of the vitamin in preventing the deficiency disease is characterized.

The history of vitamin C (ascorbic acid) conforms to this general pattern. The characterization of the deficiency disease (scurvy) and the empirical discovery of a cure for it are, properly speaking, a part of the history of scurvy and have been dealt with elsewhere in this work. But this chapter is concerned with the subsequent history of the antiscorbutic factor, which conveniently presents itself in three chronological stages: (1) the somewhat ill-defined and open-ended period – from the beginning of the nineteenth century to the 1920s – when the vitamin had the existence of an “unrevealed presence” and was known to exist only because of its preventive influence on the disease scurvy (just as, during the same period, the perturber of Uranus was known to exist long before the “discovery” of the planet Pluto); (2) the 1920s and the 1930s, when vitamin C was named, isolated, and its molecular structure revealed (in that order); and (3) the modern post-1940 period, with its emphasis on the characterization of the biochemical role of vitamin C in preventing scurvy and, more recently, the debatable “extra-antiscorbutic” roles sometimes attributed to it.

Type
Chapter
Information
The Cambridge World History of Food , pp. 754 - 763
Publisher: Cambridge University Press
Print publication year: 2000

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References

Ault, R. G., Baird, D. K., Carrington, H. C., et al. 1933. Synthesis of d- and L-ascorbic acid and of analogous substances. Journal of the Chemical Society 1.Google Scholar
Barnes, M. J., and Kodicek, E.. 1972. Biological hydroxylations and ascorbic acid with special regard to cllagen metabolism. Vitamins and Hormones 30.CrossRefGoogle ScholarPubMed
Basu, T. K., and Schorah, C. J.. 1981. Vitamin C in health and disease. London.Google Scholar
Birch, T. W., Harris, L. J., and Ray, S. N.. 1933. Hexuronic (ascorbic) acid as the antiscorbutic factor, and its chemical determination. Nature 131.CrossRefGoogle Scholar
Birney, E. C., Jenness, R., and Ayaz, K. M.. 1976. Inability of bats to synthesize L-ascorbic acid. Nature 260.CrossRefGoogle Scholar
Block, G. 1991. Epidemiologic evidence regarding vitamin C and cancer. American Journal of Clinical Nutrition 54.CrossRefGoogle ScholarPubMed
Bourne, G. H. 1949. Vitamin C and immunity. British Journal of Nutrition 2.CrossRefGoogle Scholar
Budd, G. 1840. Scurvy. In The library of medicine. Practical medicine, Vol. 5, ed. Tweedie, A.. London.Google Scholar
Budd, G. 1842. Disorders resulting from defective nutriment. London Medical Gazette 2.Google Scholar
Cameron, E., and Pauling, L.. 1976. Supplemental ascorbic acid in the supportive treatment of cancer: Prolongation of survival time in terminal human cancer. Proceedings of the National Academy of Science 73.CrossRefGoogle ScholarPubMed
Carpenter, K. J. 1986. The history of scurvy and vitamin C. Cambridge and New York.Google Scholar
Carter, K. C. 1977. The germ theory, beriberi, and the deficiency theory of disease. Medical History 21.CrossRefGoogle Scholar
Chatterjee, I. B. 1973. Evolution and biosynthesis of ascorbic acid. Science 182.CrossRefGoogle ScholarPubMed
Chick, H., and Hume, M.. 1917. The distribution among foodstuffs … of the substances required for the prevention of (a) beriberi and (b) scurvy. Transactions of the Royal Society for Tropical Medicine and Hygiene 10.CrossRefGoogle Scholar
Davies, H. E. F., Davies, J. E. W., Hughes, R. E., and Jones, Eleri. 1984. Studies on the absorption of L-xylo ascorbic acid (vitamin C) in young and elderly subjects. Human Nutrition: Clinical Nutrition 38.Google Scholar
Drummond, J. C. 1919. Note on the role of the anti-scorbutic factor in nutrition. Biochemical Journal 13.CrossRefGoogle Scholar
Eipper, B. A., and Mains, R. E.. 1991. The role of ascorbate in the biosynthesis of neuroendocrine peptides. American Journal of Clinical Nutrition 54.CrossRefGoogle ScholarPubMed
Englard, S., and Seifter, S.. 1986. The biochemical functions of ascorbic acid. Annual Review of Nutrition 6.CrossRefGoogle ScholarPubMed
,Experimental scurvy in a young man. 1986. Nutrition Reviews 44.
Fleming, P. J., and Kent, U. M.. 1991. Cytochrome b561, ascorbic acid, and transmembrane electron transfer. American Journal of Clinical Nutrition 54.CrossRefGoogle ScholarPubMed
Ginter, E. 1980. What is truly the maximum body pool of ascorbic acid in man? American Journal of Clinical Nutrition 33.CrossRefGoogle ScholarPubMed
Ginter, E., and Bobek, P.. 1981. The influence of vitamin C on lipid metabolism. In Vitamin C (ascorbic acid), ed. Counsell, J. N. and Hornig, D. H.. London.Google Scholar
Harden, A., and Zilva, S. S.. 1918. The antiscorbutic factor in lemon juice. Biochemical Journal 12.CrossRefGoogle ScholarPubMed
Harris, L. J. 1937. Vitamins in theory and practice. New York and Cambridge.Google Scholar
Harris, L. J. 1953. Chairman’s summing-up. Proceedings of the Nutrition Society 12.CrossRefGoogle Scholar
Haworth, W. N., Hirst, E. L., and Zilva, S. S.. 1934. Physiological activity of synthetic ascorbic acid. Journal of the Chemical Society 2.Google Scholar
Hirst, E. L. 1953. The chemistry of vitamin C. In Lind’s treatise on scurvy, ed. Stewart, C. P. and Guthrie, D.. Edinburgh.Google Scholar
Holst, A., and Fröhlich, T.. 1907. Experimental studies relating to ship beri-beri and scurvy. II. On the etiology of scurvy. Journal of Hygiene 7.Google Scholar
Hopkins, F. G. 1912. Feeding experiments illustrating the importance of accessory factors in normal dietaries. Journal of Physiology 44.CrossRefGoogle ScholarPubMed
Hughes, R. E. 1973. George Budd (1808–1882) and nutritional deficiency diseases. Medical History 17.CrossRefGoogle Scholar
Hughes, R. E. 1981a. Recommended daily amounts and biochemical roles – the vitamin C, carnitine, fatigue relationship. In Vitamin C (ascorbic acid), ed. Counsell, J. N. and Hornig, D. H.. London.Google Scholar
Hughes, R. E. 1981b. Vitamin C: Some current problems. London.Google Scholar
Hughes, R. E. 1983. From ignose to hexuronic acid to vitamin C. Trends in Biochemical Science 8.CrossRefGoogle Scholar
Hughes, R. E. 1990. The rise and fall of the “antiscorbutics”: Some notes on the traditional cures for “land scurvy.” Medical History 34.CrossRefGoogle ScholarPubMed
Johnston, C. S. 1991. Complement component Clq unaltered by ascorbate supplementation in healthy men and women. Nutritional Biochemistry 2.CrossRefGoogle Scholar
Jones, E., and Hughes, R. E.. 1983. Foliar ascorbic acid in some angiosperms. Phytochemistry 22.CrossRefGoogle Scholar
Jones, E., and Hughes, R. E.. 1984. A note on the ascorbic acid content of some trees and woody shrubs. Phytochemistry 23.CrossRefGoogle Scholar
Jones, E., Hughes, R. E., and Davies, H. E. F.. 1988. Intake of vitamin C and other nutrients by elderly patients receiving a hospital diet. Journal of Human Nutrition and Dietetics 1.CrossRefGoogle Scholar
Jukes, T. H. 1974. Are recommended and daily allowances for vitamin C adequate? Proceedings of the National Academy of Science 71.CrossRefGoogle ScholarPubMed
Jukes, T. H. 1988. The identification of vitamin C, an historical summary. Journal of Nutrition 118.CrossRefGoogle ScholarPubMed
Kallner, A. 1981. Vitamin C – man’s requirements. In Vitamin C (ascorbic acid), ed. Counsell, J. N. and Hornig, D. H.. London.Google Scholar
King, C. G. 1953. The discovery and chemistry of vitamin C. Proceedings of the Nutrition Society 12.Google Scholar
Kohlmeier, L., and Dortschy, R.. 1991. Diet and disease in East and West Germany. Proceedings of the Nutrition Society 50.CrossRefGoogle Scholar
Levine, M., and Morita, K.. 1985. Ascorbic acid in endocrine systems. Vitamins and Hormones 42.CrossRefGoogle ScholarPubMed
Lloyd, H. C., and Coulter, J. L. S.. 1963. Medicine and the navy, 1200–1900, Vol. 4. Edinburgh and London.Google Scholar
Lyko, H. C., and Hartmann, J. X.. 1980. Ascorbate, cyclic nucleotides, citrus and a model for preventing large bowel cancer. Journal of Theoretical Biology 83.CrossRefGoogle Scholar
Mapson, L. W. 1967. Biogenesis of L-ascorbic acid in plants and animals. In The Vitamins, Vol. 1, ed. Sebrell, W. H. and Harris, R. S.. New York and London.Google Scholar
,Ministry of Agriculture, Fisheries, and Food (MAFF). 1987. Nitrate, nitrite and N-nitroso compounds in food. London.
Moss, R. W. 1987. Free radical: Albert Szent-Györgyi and the battle over vitamin C. New York.Google Scholar
Pauling, L. 1976. Vitamin C, the common cold and the flu. San Francisco.Google Scholar
Peterkofsky, B. 1991. Ascorbate requirement for hydroxylation and secretion of procollagen: Relationship to inhibition of collagen synthesis in scurvy. American Journal of Clinical Nutrition 54.CrossRefGoogle ScholarPubMed
Rebouche, C. J. 1991. Ascorbic acid and carnitine biosynthesis. American Journal of Clinical Nutrition 54.CrossRefGoogle ScholarPubMed
Reichstein, T., Grussner, A., and Oppenheimer, R.. 1933. Synthesis of d- and L-ascorbic acid (vitamin C). Nature 132.CrossRefGoogle Scholar
Richards, E. 1991. Vitamin C and cancer. London.Google Scholar
Sato, P., and Uderfriend, S.. 1978. Studies on ascorbic acid related to the genetic basis of scurvy. Vitamins and Hormones 36.Google ScholarPubMed
Svirbely, J. L., and Szent-Györgyi., A. 1932. Hexuronic acid as the antiscorbutic factor. Nature 129.CrossRefGoogle Scholar
Szent-Györgyi, A. 1928. Observations on the function of the peroxidase systems. …Biochemical Journal 22.Google Scholar
Szent-Györgyi, A. 1963. Lost in the twentieth century. Annual Review of Biochemistry 32.CrossRefGoogle Scholar
Thomas, M., and Hughes, R. E.. 1985. Evaluation of threonic acid toxicity in small animals. Food Chemistry 17.CrossRefGoogle Scholar
Thomas, W. R., and Holt, P. G.. 1978. Vitamin C and immunity: An assessment of the evidence. Clinical and Experimental Immunology 32.Google Scholar
Waugh, W. A., and King, C. G.. 1932. The isolation and identification of vitamin C. Journal of Biological Chemistry 97.Google Scholar
Wilson, L. G. 1975. The clinical definition of scurvy and the discovery of vitamin C. Journal of the History of Medicine 30.Google ScholarPubMed
Zilva, S. S. 1932. Hexuronic acid as the antiscorbutic factor. Nature 129.CrossRefGoogle Scholar

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