Metal (molybdenum, copper) accumulation and retention in brain, pituitary and other organs of ammonium tetrathiomolybdate-treated sheep

Susan Haywood; Zuhal Dincer; J. Holding; Nicola M. Parry

doi:10.1079/BJN19980056

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Ammonium tetrathiomolybdate (TTM) is the treatment of choice for chronic Cu poisoning in sheep and is recommended in Wilson's disease. However, the long-term effects have not been fully evaluated and some evidence questions the long-term safety of the drug. The aim of the present study was to investigate the systemic distribution and retention of Cu and Mo in TTM-treated sheep of different breeds and Cu status. Low-Cu Cambridge sheep were divided into a TTM trial group (3·4 mg/kg, subcutaneously, on three alternate days per month, for 5 months) and a control group, and were killed at the end of the course or 7 months later. High-Cu sheep consisting of a Cu-supplemented (150 mg/kg) Cambridge group and a North Ronaldsay group were administered TTM as before and compared with untreated controls. Brain, liver, kidney, heart, skeletal muscle, pituitary, adrenals, testes and ovaries were retained for metal analysis. Mo accumulated in all organs including brain and pituitary (P < 0·02) in all TTM trial groups and was retained after cessation of treatment, except in liver, kidney and skeletal muscle. Cu was increased (P < 0·02) and retained in the cerebellum and medulla oblongata in the TTM-treated high-Cu Cambridge groups. Brain Cu v. Mo concentrations showed a strongly positive correlation (r 0·7) in the high-Cu Ronaldsay group 7 months after TTM treatment. It is concluded that TTM is not all excreted but (Mo) is widely distributed and retained in many organs including brain and pituitary. In addition TTM may redistribute some displaced excess liver Cu (Cu-TTM) to the brain. The consequences of these disturbances await clarification.

References

Allain, P & Krari, N (1991) Diethyldithiocarbamate, copper and neurological disorders. Life Sciences 48, 291–299.CrossRef Google Scholar PubMed

Brewer, GJ, Dick, RD, Yuzbasiyan-Gurkan, V, Tankanow, R, Young, AB & Kluin, KJ (1991) Initial therapy of patients with Wilson's disease with tetrathiomolybdate. Archives of Neurology 48, 42–47.CrossRef Google Scholar PubMed

Dincer, Z (1994) Copper toxicity in sheep: Studies on copper chelation by ammonium tetrathiomolybdate (TTM) and metal-lothionein. PhD Thesis, University of Liverpool.Google Scholar

Haywood, S, Dincer, Z & Humphries, WR (1993) Endocrinopathy and brain copper elevation in tetrathiomolybdate treated sheep. In Trace Elements in Man and Animals. Proceedings of the Eight International Symposium on Trace Elements in Man and Animals (TEMA-8), Dresden pp. 601–602 [Anke, M, Meissner, D and Mills, CF, editors]. Gersdorf: Verlag Media Touristik.Google Scholar

Humphries, WR, Morrice, PC & Bremner, I (1988) A convenient method for the treatment of chronic copper poisoning in sheep using subcutaneous ammonium tetrathiomolybdate. Veterinary Record 9, 51–53.CrossRef Google Scholar

Mason, J, Lamand, M, Tressol, JC & Mulryan, G (1988) Studies on the changes in systemic copper metabolism and excretion produced by the intravenous administration of trithiomolybdate in sheep. British Journal of Nutrition 59, 289–300.CrossRef Google Scholar PubMed

Phillippo, M, Humphries, WR, Atkinson, T, Henderson, GD & Garthwaite, PH (1987) The effect of dietary molybdenum and iron on copper status, puberty, fertility and oestrous cycles in cattle. Journal of Agricultural Science 109, 321–336.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

du Plessis, S.S Van Niekerk, F.E and Coetzer, W.A 1999. The effect of dietary molybdenum and sulphate on sexual activity and plasma progesterone concentrations of ewes. Small Ruminant Research, Vol. 33, Issue. 1, p. 71.

du Plessis, S.S van Niekerk, F.E and Coetzer, W.A 1999. The effect of dietary molybdenum and sulphate on the oestrus cycle and ovulation in ewes after manipulation with exogenous progesterone alone or in combination with FSH and LH. Small Ruminant Research, Vol. 33, Issue. 1, p. 63.

Sievers, Erika Arpe, Thomas Schleyerbach, Urte and Schaub, Jürgen 2000. Molybdenum Supplementation in Phenylketonuria Diets: Adequate in Early Infancy?. Journal of Pediatric Gastroenterology and Nutrition, Vol. 31, Issue. 1, p. 57.

Frank, Adrian Danielsson, Rolf and Jones, Bernt 2000. Experimental copper and chromium deficiency and additional molybdenum supplementation in goats. II. Concentrations of trace and minor elements in liver, kidneys and ribs: haematology and clinical chemistry. Science of The Total Environment, Vol. 249, Issue. 1-3, p. 143.

Frank, Adrian Danielsson, Rolf and Jones, Bernt 2000. The ‘mysterious’ disease in Swedish moose. Concentrations of trace elements in liver and kidneys and clinical chemistry. Comparison with experimental molybdenosis and copper deficiency in the goat. Science of The Total Environment, Vol. 249, Issue. 1-3, p. 107.

Vásquez, Eduardo Fabián Aragón Herrera, Alexandra del Pilar Naranjo and Santiago, Genario Sobreira 2001. Interação cobre, molibdênio e enxofre em ruminantes. Ciência Rural, Vol. 31, Issue. 6, p. 1101.

Armstrong, Carolyn Leong, Wing and Lees, Gordon J. 2001. Comparative effects of metal chelating agents on the neuronal cytotoxicity induced by copper (Cu+2), iron (Fe+3) and zinc in the hippocampus. Brain Research, Vol. 892, Issue. 1, p. 51.

Cox, Diane Cullen, Lara and Forbes, John 2002. Heavy Metals In The Environment.

Williams, C. L. Haywood, S. Loughran, M. Wilkinson, R. G. Illingworth, D. V. and Mackenzie, A. M. 2003. The effect of dietary molybdenum or iron on copper status and trace element accumulation in the pituitary and ovary of growing lambs. Proceedings of the British Society of Animal Science, Vol. 2003, Issue. , p. 195.

Haywood, S. Dincer, Z. Jasani, B. and Loughran, M.J. 2004. Molybdenum-associated Pituitary Endocrinopathy in Sheep Treated with Ammonium Tetrathiomolybdate. Journal of Comparative Pathology, Vol. 130, Issue. 1, p. 21.

Zatta, Paolo and Frank, Adrian 2007. Copper deficiency and neurological disorders in man and animals. Brain Research Reviews, Vol. 54, Issue. 1, p. 19.

Jelikić-Stankov, Milena Uskoković-Marković, Snezana Holclajtner-Antunović, Ivanka Todorović, Marija and Djurdjević, Predrag 2007. Compounds of Mo, V and W in biochemistry and their biomedical activity. Journal of Trace Elements in Medicine and Biology, Vol. 21, Issue. 1, p. 8.

Meeker, John D. Rossano, Mary G. Protas, Bridget Padmanahban, Vasantha Diamond, Michael P. Puscheck, Elizabeth Daly, Douglas Paneth, Nigel and Wirth, Julia J. 2010. Environmental exposure to metals and male reproductive hormones: circulating testosterone is inversely associated with blood molybdenum. Fertility and Sterility, Vol. 93, Issue. 1, p. 130.

Haywood, S. and Vaillant, C. 2014. Overexpression of Copper Transporter CTR1 in the Brain Barrier of North Ronaldsay Sheep: Implications for the Study of Neurodegenerative Disease. Journal of Comparative Pathology, Vol. 150, Issue. 2-3, p. 216.

Lewis, Ryan C. and Meeker, John D. 2015. Biomarkers of exposure to molybdenum and other metals in relation to testosterone among men from the United States National Health and Nutrition Examination Survey 2011–2012. Fertility and Sterility, Vol. 103, Issue. 1, p. 172.

Lewis, Ryan C. Johns, Lauren E. and Meeker, John D. 2016. Exploratory analysis of the potential relationship between urinary molybdenum and bone mineral density among adult men and women from NHANES 2007–2010. Chemosphere, Vol. 164, Issue. , p. 677.

Maurya, R. C. Vishwakarma, P. K. Mir, J. M. and Rajak, D. K. 2016. Oxidoperoxidomolybdenum(VI) complexes involving 4-formyl-3-methyl-1-phenyl-2-pyrazoline-5-one and some β-diketoenolates. Journal of Thermal Analysis and Calorimetry, Vol. 124, Issue. 1, p. 57.

Maurya, R.C. Bohre, P. Sahu, S. Martin, M.H. Sharma, A.K. and Vishwakarma, P. 2016. Oxoperoxomolybdenum(VI) complexes of catalytic and biomedical relevance: Synthesis, characterization, antibacterial activity and 3D-molecular modeling of some oxoperoxomolybdenum(VI) chelates in mixed (O,O) coordination environment involving maltol and β-diketoenolates. Arabian Journal of Chemistry, Vol. 9, Issue. , p. S150.

Mir, Jan Mohammad Maurya, R.C. and Vishwakarma, P.K. 2017. Corrosion resistance and thermal behavior of acetylacetonato-oxoperoxomolybdenum(VI) complex of maltol: Experimental and DFT studies. Karbala International Journal of Modern Science, Vol. 3, Issue. 4, p. 212.

Download full list

Article contents

Metal (molybdenum, copper) accumulation and retention in brain, pituitary and other organs of ammonium tetrathiomolybdate-treated sheep

Abstract

Keywords

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Metal (molybdenum, copper) accumulation and retention in brain, pituitary and other organs of ammonium tetrathiomolybdate-treated sheep

Abstract

Keywords

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests