Abstract
In adult subjects living in a severely iodine-deficient area (median urinary iodine 10 μ/L), we evaluated the biochemical parameters of protein malnutrition in relation to thyroid homeostasis. Serum transthyretine (TTR), retinol binding protein (RBP) and retinol, all components of the retinol circulating complex (RCC), as well as ceruloplasmin levels, were determined in 63 subjects (44 F/19 M). These comprised 21 controls, 31 who were euthyroid with goiter WHO stage 2 or 3 and 11 who met the criteria of hypothyroidism (i.e. FT4 <8 pmol/L and TSH >4.13 mU/L) with goiter stage no more than 1b. No differences in the values of TTR and RBP were found between males and females, whereas the retinol values were slightly higher in males. The mean retinol binding protein values were lower than the normal range in all three groups but were significantly lower (p<0.01; <0.05) in hypothyroid subjects than in the other two groups. All hypothyroid subjects exhibited reduced retinol binding protein levels and 1/3 of them showed a marked decrease. The circulating levels of transthyretine were also lower than the normal range for western countries. 45% of the hypothyroid, 26% of goitrous and 9% of control subjects exhibited a transthyretine lower than 12 mg/dI, but the mean values were not dissimilar. The mean retinol values were within the normal range in all three groups but were lower in hypothyroid as compared to the controls (<0.01). The resulting retinol/RBP ratio was over 1 in both the whole sample and in the subgroups. Ceruloplasmin levels were in the normal range in all groups. The data indicated that hypothyroid subjects had reduced retinol binding protein and retinol circulating complex network compared to euthyroid subjects.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Delange F., Burgi H. Iodine deficiency disorders in Europe. Bullettin W.H.O. 67: 317, 1989.
Medeiros Neto G. Iodine deficiency disorders. Thyroid 1: 73 1990.
Gaitan E. Goitrogens in food and water. Annu. Rev. Nutr. 10: 21, 1990.
Danforth E. Jr., Burger A.G. The impact of nutrition on thyroid hormone physiology and action. Annu. Rev. Nutr. 9: 201, 1989.
Ingenbleek Y., De Visscher M. Hormonal and nutritional status: critical conditions for endemic goiter epidemiology? Metabolism 28: 9, 1979.
Ingenbleek Y. Thyroid dysfunction in protein-calorie malnutrition. Nutrition Rev. 44: 253, 1986.
Ingenbleek Y., Barclay D., Dirren H. Nutritional significance of alterations in serum amino acid patterns in goitrous patients. Am. J. Clin. Nutr. 43: 310, 1986.
Ingenbleek Y. Iodine deficiency and other nutrition factors in endemic goiter epidemiology. Nutrition 8: 55, 1992.
Shetty P., Watrasiewicz K., Jung R., James W.P. Rapid-turnover transport proteins: an index of subclinical protein-energy malnutrition. Lancet 2: 230, 1979.
Large S., Neal G., Glover J., Thanangkul O., Olson R.E. The early changes in retinol-binding protein and prealbumin concentrations in plasma of protein-energy malnourished children after treatment with retinol and an improved diet. Br. J. Nutr. 43: 393, 1980.
De Luca L., Brugh M., Silverman-Jones C., Shidoji Y. Synthesis of retinyl phosphate mannose and dolichyl phosphate mannose from endogenous and exogenous retinyl phosphate and dolichyl phosphate in microsomal fraction. Biochem. J. 208: 159, 1982.
Ingenbleek Y. Vitamin A-deficiency impairs the normal mannosylation, conformation and iodination of thyroglobulin: a new etiological approach to endemic goitre. Experientia 39: 264, 1983.
Centanni M., Scaccini C., Maiani G., Andreoli M., Ferro-Luzzi A. Pattern of thyroid hormones in mildly protein-deficient women in area endemic for goitre. Nutrition 7: 1, 1991.
Lazarus J.H., Parkes A.B., John R., N’Diaye M., Prysor-Jones S.G. Endemic goitre in Senegal — thyroid function, etiological factors and treatment with oral iodized oil. Acta Endocrinol. (Copenh.) 126: 149, 1992.
Stacewicz-Sapuntzakis M., Bowen P.E., Kikendall J.W. Simultaneous determination of serum retinol and various carotenoids: their distribution in middle aged men and women. J. Micronutr. Anal. 3: 27, 1987.
Sauberlich H.E., Dowdy R.B., Skala J.H. Laboratory test of nutrition status. CRC Press, Cleveland, 1974, p. 92.
Smith F., Goodman D. The effects of diseases of the liver, thyroid and kidneys on the transport of vitamin A in human plasma. J.Clin. Invest. 50: 2426, 1971.
Maiani G., Raguzzini A., Mobaran S., Ferro-Luzzi A. Vitamin A. Int. J. Vit. Nutr. Res. 63: 252, 1993.
Johnson P., Milne D., Lykken G. Effects of age and sex on copper absorption, biological half-life, and status in humans. Am. J.Clin. Nutr. 56: 917, 1992.
Comstock G., Menkes M., Schober S., Vuilleumier J.P., Helsing K. Serum levels of retinol, beta-carotene and alfa tocopherol in older adults. Am. J. Epidemiol. 127: 114, 1988.
Ascherio A., Stampfer M., Colditz G., Rimm E., Litin L., Willett W. Correlations of vitamin A and E intakes with the plasma concentrations of carotenoids and tocopherols among American men and women. J. Nutr. 122: 1792, 1992.
Brouwer A., Van Der Berg K.J., Blaner W.S., Goodman D.S. Transthyretin (prealbumin) binding of PCBS, a model for the mechanism of interference with vitamin A and thyroid hormone metabolism. Chemosphere 15: 1699, 1986.
Higueret P., Pailler I., Garcin H. Vitamin A deficiency and tri-iodothyronine action at the cellular level in the rat. J. Endocrinol. 121: 75, 1989.
Author information
Authors and Affiliations
Additional information
This work has been supported by the Institute of Experimental Medicine, CNR and by the Ministero dell’Università e della Ricerca Scientifica e Tecnologica (MURST).
Rights and permissions
About this article
Cite this article
Centanni, M., Maiani, G., Parkes, A.B. et al. Thyroid homeostasis and retinol circulating complex relationships in a severe iodine-deficient area of Senegal. J Endocrinol Invest 18, 608–612 (1995). https://doi.org/10.1007/BF03349778
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF03349778