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Regulation of intestinal metal transporter expression by erythropoietin

Published online by Cambridge University Press:  08 April 2011

K. Pourvali  and
P. Sharp
K. Pourvali
Affiliation:
Nutritional Science Division, King's College London, Franklin-Wilkins Building, 150 Stamford St., London SE1 9NH, UK National Nutrition and Food Technology Research Institute and Faculty of Nutrition and Food Technology, Shaheed Beheshti University of Medical Sciences, Tehran, Iran
P. Sharp
Affiliation:
Nutritional Science Division, King's College London, Franklin-Wilkins Building, 150 Stamford St., London SE1 9NH, UK
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Abstract

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Proceedings of the Nutrition Society , Volume 69 , Issue OCE8: Winter Meeting, 2 December 2010, Functional genomic biomarkers, nutrition and disease susceptibility , 2010 , E589
Copyright
Copyright © The Authors 2011

Iron deficiency anaemia (IDA) leads to local tissue hypoxia and increased levels of the hormone erythropoietin (Epo)(Reference Patnaik and Tefferi1). In IDA, intestinal Fe absorption is up-regulated reflecting the increased erythroid Fe demand(Reference Sharp and Srai2). Interestingly, the uptake of Cu is also increased in models of Fe deficiency(Reference Linder, Zerounian and Moriya3). We have shown recently that Epo directly regulates the intestinal Fe transporter expression(Reference Srai, Chung and Marks4) and here we have investigated whether Epo might also regulate the expression of the Cu transporter genes hCTR1, ATP7a and ATP7b.

Experiments used human intestinal Caco-2 cells. Cells were exposed to Epo (1 unit/ml) for 24 h. Fe and Cu transporter mRNA expression was measured by Q-PCR. Statistical analysis was performed using Student's unpaired t test, significant at P<0.05.

Table 1. Effect of Epo treatment on Cu and Fe transporter mRNA expression. n 6–12 in each group; NS, non-significant

Following Epo treatment, the expression of DMT1, FPN and hephaestin, as well as the Cu transporters hCTR1 and ATP7b, were increased significantly (Table 1). These data suggest that Epo acts directly on intestinal epithelial cells to increase the expression of both the Fe–Cu transport pathways. The ferrioxidase activity of hephaestin is essential for Fe efflux from enterocytes. Hephaestin is a Cu-dependent enzyme and it is possible that increased Cu transporter expression following Epo may be important in providing Cu to maintain hephaestin activity.

References

1.Patnaik, MM & Tefferi, A (2009) Leukemia 23, 834844.CrossRefGoogle Scholar
2.Sharp, P & Srai, SK (2007) World J Gastroenterol 13, 47164724.CrossRefGoogle Scholar
3.Linder, MC, Zerounian, NR, Moriya, M et al. (2003) Biometals 16, 145160.CrossRefGoogle Scholar
4.Srai, SK, Chung, B, Marks, J et al. (2010) Kidney Int 78, 660667.CrossRefGoogle Scholar
Figure 0

Table 1. Effect of Epo treatment on Cu and Fe transporter mRNA expression. n 6–12 in each group; NS, non-significant