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Vitamin A status does not influence neopterin production during illness or health in South African children

Published online by Cambridge University Press:  22 August 2007

Suzanne M. Filteau ,
John G. Raynes ,
Karin Simmank  and
Lucy A. Wagstaff
Suzanne M. Filteau*
Affiliation:
Centre for International Child Health, Institute of Child Health, London WC1N 1EH, UK Department of Clinical Sciences, London School of Hygiene and Tropical Medicine, London WC1E 4HT, UK
John G. Raynes
Affiliation:
Department of Clinical Sciences, London School of Hygiene and Tropical Medicine, London WC1E 4HT, UK
Karin Simmank
Affiliation:
Department of Community Pediatrics, Baragwanath Hospital, University of Witwatersrand, Soweto, PO Bertsham 2013, South Africa
Lucy A. Wagstaff
Affiliation:
Department of Community Pediatrics, Baragwanath Hospital, University of Witwatersrand, Soweto, PO Bertsham 2013, South Africa
*
*Corresponding author: Dr Suzanne M. Filteau, fax +44 (0) 171 404 2062, email sfilteau@ich.ucl.ac.uk
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Abstract

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Excessive interferon-gamma (IFN-γ) production appears to be a primary immunological lesion in vitamin A-deficient experimental animals but comparable data from humans is lacking. We investigated IFN-γ production in South African children by measurement of urinary excretion of neopterin, a product of IFN-γ-activated monocytes or macrophages. Preschool children were examined during an acute inflammatory illness resulting from accidental ingestion of kerosene and they and a neighbourhood control child were examined 3 months later when well. Vitamin A status was assessed by the modified relative dose response (MRDR) test at 3 months and serum retinol and acute phase proteins were measured at both time points. Urinary neopterin was measured for forty cases in hospital, forty-six cases after recovery, and forty-one controls. Significantly increased neopterin excretion was seen following kerosene ingestion and in association with raised serum acute phase protein concentrations. There was no relationship between neopterin excretion at either time point and vitamin A status as assessed by MRDR test. Urinary neopterin was negatively correlated with serum retinol but no significant relationship was observed when acute phase protein concentrations were included in a multiple regression, suggesting the correlation was secondary to illness-induced changes in serum retinol. The results indicate that, contrary to what is observed in rodents under experimental conditions, poor vitamin A status is not associated with altered regulation of IFN-γ production in children.

Keywords

Vitamin ANeopterinInterferonChildhood
Type
Research Article
Information
British Journal of Nutrition , Volume 80 , Issue 1 , July 1998 , pp. 75 - 79
Copyright
Copyright © The Nutrition Society 1998

References

Beaton, GH, Martorell, RJ, Aronson, KJ, Edmonston, B, McCabe, G, Ross, AC & Harvey, B (1993) Effectiveness of Vitamin A Supplementation in the Control of Young Child Morbidity and Mortality in Developing Countries. Geneva: United Nations Administrative Committee on Coordination/Subcommittee on Nutrition State of the Art Series Nutrition Policy.Google Scholar
Bowman, TA, Goonewardene, IM, Pasatiempo, AMG, Ross, AC & Taylor, CE (1990) Vitamin A deficiency decreases natural killer cell activity and interferon production in rats. Journal of Nutrition 120, 12641273.Google Scholar
Cantorna, MT, Nashold, FE & Hayes, CE (1994) In vitamin A deficiency multiple mechanisms establish a regulatory T helper cell imbalance with excess Th1 and insufficient Th2 function. Journal of Immunology 152, 15151522.CrossRefGoogle ScholarPubMed
Cantorna, MT, Nashold, FE & Hayes, CE (1995) Vitamin A deficiency results in a priming environment conducive for Th1 cell development. European Journal of Immunology 25, 16731679.CrossRefGoogle Scholar
Carmen, JA, Pond, L, Nashold, F, Wassom, DL & Hayes, CE (1992) Immunity to Trichinella spiralis infection in vitamin A-deficient mice. Journal of Experimental Medicine 175, 111120.Google Scholar
Cippitelli, M, Ye, J, Viggiano, V, Sica, A, Ghosh, P, Gulino, A, Santoni, A & Young, HA (1996) Retinoic acid-induced transcriptional modulation of the human interferon-gamma promoter. Journal of Biological Chemistry 271, 2678326793.Google Scholar
De Wet, B, van Schalkwyk, D, van der, Spuy J, du Plessis, J, du Toit, N & Burns, D (1994) Parrafin (kerosene) poisoning in South Africa – is prevention affordable? South African Medical Journal 84, 735738.Google Scholar
Filteau, SM, Morris, SS, Abbott, RA, Tomkins, AM, Kirkwood, BR, Arthur, P, Ross, DA, Gyapong, JO & Raynes, JG (1993) Influence of morbidity on serum retinol of children in a community-based study in northern Ghana. American Journal of Clinical Nutrition 58, 192197.Google Scholar
Filteau, SM, Morris, SS, Tomkins, AM, Arthur, P, Kirkwood, BR, Ross, DA, Abbott, RA & Gyapong, JO (1994) Lack of association between vitamin A status and measures of conjunctival epithelial integrity in young children in northern Ghana. European Journal of Clinical Nutrition 48, 669677.Google Scholar
Fuchs, D, Weiss, G, Reibnegger, G & Wachter, H (1992) The role of neopterin as a monitor of cellular immune activation in transplantation, inflammatory, infectious, and malignant diseases. Critical Reviews in Clinical Laboratory Sciences 29, 307341.Google Scholar
Gillespie, SH, Dow, C, Raynes, JG, Berhens, RH, Chiodini, PL & McAdam, KPWJ (1991) Measurement of acute phase proteins for assessing severity of Plasmodium falciparum malaria. Journal of Clinical Pathology 44, 228231.Google Scholar
Huber, C, Batchelor, JR, Fuchs, D, Hausen, A, Lang, A, Niederwieser, D, Reibnegger, G, Swetly, P, Troppmair, J & Wachter, H (1984) Immune response-associated production of neopterin: release from macrophages primarily under control of interferon-gamma. Journal of Experimental Medicine 160, 310316.Google Scholar
Kirkwood, BR (1988) Essentials of Medical Statistics. Oxford: Blackwell Scientific Publications.Google Scholar
Iwagaki, H, Hizuta, A, Tanaka, N & Orita, K (1995) Plasma neopterin/C-reactive protein ratio as an adjunct to the assessment of infection and cancer cachexia. Immunological Investigations 24, 479487.Google Scholar
Ramsden, DB, Prince, HP, Burr, WA, Bradwell, AR, Black, EG, Evans, AE & Hoffenberg, R (1978) The inter-relationship of thyroid hormones, vitamin A and their binding proteins following acute stress. Clinical Endocrinology 8, 109122.Google Scholar
Rosales, FJ, Ritter, SJ, Zolfaghari, R, Smith, JE & Ross, AC (1996) Effects of acute inflammation on plasma retinol, retinol binding protein, and its mRNA in the liver and the kidneys of vitamin A-sufficient rats. Journal of Lipid Research 37, 962971.CrossRefGoogle ScholarPubMed
Ross, AC & Stephensen, CB (1996) Vitamin A and retinoids in antiviral responses. FASEB Journal 10, 979985.CrossRefGoogle ScholarPubMed
Tanumihardjo, SA, Permaeshi, D, Muherdiyantiningsih, Rustan E, Rusmil, K, Fatah, AC, Wilbur, S, Muhilal, Katyadi D & Olson, JA (1996) Vitamin A status of Indonesian children infected with Ascaris lumbricoides after dosing with vitamin A supplements and albendazole. Journal of Nutrition 126, 451457.CrossRefGoogle ScholarPubMed
Weidermann, U, Chen, X-J, Enerback, L, Hanson, LA, Kahu, H & Dahlgren, UI (1996) Vitamin A deficiency increases inflammatory responses. Scandanavian Journal of Immunology 44, 578584.CrossRefGoogle Scholar
Weidermann, U, Hanson, LA, Kahu, H & Dahlgren, UI (1993) Aberrant T-cell function in vitro and impaired T-cell dependent antibody response in vivo in vitamin A-deficient rats. Immunology 80, 581586.Google Scholar
Whiteside, TL (1994) Cytokine measurements and interpretation of cytokine assays in human disease. Journal of Clinical Immunology 14, 327339.CrossRefGoogle ScholarPubMed
Willumsen, JF, Simmank, K, Filteau, SM, Wagstaff, LA & Tomkins, AM (1997) Toxic damage to the respiratory epithelium induces acute phase changes in vitamin A metabolism without depleting retinol stores of South African children. Journal of Nutrition 127, 13391343.CrossRefGoogle Scholar
Wolbach, SB & Howe, PR (1925) Tissue changes following deprivation of fat-soluble A vitamin. Journal of Experimental Medicine 42, 753777.Google Scholar
Zhao, Z, Murasko, DM & Ross, AC (1994) The role of vitamin A in natural killer cell cytotoxicity, number and activation in the rat. Natural Immunity 13, 2941.Google Scholar
Zile, MH, Bunge, EC & Deluca, HF (1981) DNA labeling of rat epithelial tissues in vitamin A deficiency. Journal of Nutrition 111, 777788.Google Scholar