Dietary molybdenum as a putative copper antagonist in the horse.

Four horses were stabled and fed a diet of hay ad libitum, and 2 kg oats per animal per day, for a month. The basic diet was then supplemented with molybdenum, at a rate of 20 mg/kg dry matter for 4.5 months. For one month of this period the diet was supplemented also with sulphur at a rate of 1.2 g/kg dry matter. Analyses of jugular blood samples, obtained at intervals varying between two and 20 days, showed no evidence of a decline in total plasma copper or of an increased proportion of trichloroacetic acid (TCA) insoluble copper in plasma over this period. In separate studies, two other horses were given 99molybdenum (molybdate, 20 to 28 mg Mo, 4 mCi per animal) per os, initially while being fed the basic diet and later while maintained on the molybdenum supplemented diet. 99Molybdenum appeared rapidly in plasma, but the radioactivity was then quickly cleared (half-life 7 to 10 h). The 99molybdenum present was identified as (99Mo)-molybdate. There was no evidence of the persistent, protein-bound (99Mo)thiomolybdates which appear in ruminants. These studies indicate that increased dietary molybdenum is unlikely to interfere with copper metabolism in horses.

[1]  M. Woods,et al.  Accumulation of copper on albumin in bovine plasma in vivo after intravenous trithiomolybdate administration. , 1986, Research in veterinary science.

[2]  M. Hynes,et al.  Some studies on the metabolism of labelled molybdenum compounds in cattle. , 1985, Journal of inorganic biochemistry.

[3]  M. Hynes,et al.  Some studies on the metabolism and the effects of 99Mo- and 35S-labelled thiomolybdates after intravenous infusion in sheep , 1984, British Journal of Nutrition.

[4]  C. F. Mills,et al.  Thiomolybdates in rumen contents and rumen cultures. , 1983, Journal of inorganic biochemistry.

[5]  D. J. Blackmore,et al.  Copper and zinc levels in the blood of thoroughbreds in training in the United Kingdom. , 1983, Equine veterinary journal.

[6]  M. Lamand,et al.  The effects of duodenal infusion of tri- and dithiomolybdate on plasma copper and on the diamine oxidase activity of caeruloplasmin (EC1.16.3.1) in sheep. , 1982, Journal of comparative pathology.

[7]  C. Kelleher,et al.  The demonstration of protein-bound 99Mo-di- and trithiomolybdate in sheep plasma after the infusion of 99Mo-labelled molybdate into the rumen , 1982, British Journal of Nutrition.

[8]  J. Lowe,et al.  Influence of dietary molybdenum on copper metabolism in ponies. , 1981, The Journal of nutrition.

[9]  N. Suttle,et al.  THE ROLE OF THIOMOLYBDATES IN THE NUTRITIONAL INTERACTIONS OF COPPER, MOLYBDENUM, AND SULFUR: FACT OR FANTASY? , 1980, Annals of the New York Academy of Sciences.

[10]  M. Lamand,et al.  The fate of 99Mo-labelled sodium tetrathiomolybdate after duodenal administration in sheep: the effect on caeruloplasmin (EC 1.16.3.1) diamine oxidase activity and plasma copper , 1980, British Journal of Nutrition.

[11]  J. Tressol,et al.  Biochemical parameters useful for the diagnosis of mild molybdenosis in sheep. , 1980, Annales de recherches veterinaires. Annals of veterinary research.

[12]  J. Carbery Osteodysgenesis in a foal associated with copper deficiency. , 1978, New Zealand veterinary journal.

[13]  I. Bremner,et al.  Effects of dietary molybdenum and sulphur on the distribution of copper in plasma and kidneys of sheep , 1978, British Journal of Nutrition.

[14]  J. Tressol,et al.  The influence of dietary sulphur, molybdate and copper on the absorption, excretion and plasma fraction levels of 99Mo in sheep. , 1978, Annales de recherches veterinaires. Annals of veterinary research.

[15]  C. Cardin,et al.  The competition of molybdate and sulphate ions for a transport system in the ovine small intestine. , 1977, Research in veterinary science.

[16]  C. Cardin,et al.  Molybdate and tungstate transfer by rat ileum. Competitive inhibition by sulphate. , 1976, Biochimica et biophysica acta.

[17]  S. Smith,et al.  Effect of dietary Mo on Cu metabolism. Evidence for the involvement of Mo in abnormal binding of Cu to plasma proteins. , 1975, Clinica chimica acta; international journal of clinical chemistry.

[18]  P. A. Moore Molybdenum Content of Equine Liver Tissue , 1958, Nature.

[19]  T. Walsh,et al.  Excess of Molybdenum in Herbage as a Possible Contributory Factor in Equine Osteodystrophia , 1953, Nature.