The Role of Hepcidin in Regulation of Iron Balance in Bats

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Date

2012-09-17

Authors

Stasiak, Iga

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Publisher

University of Guelph

Abstract

Iron storage disease is a significant cause of liver disease and mortality in captive Egyptian fruit bats (Rousettus aegyptiacus). The nature of the susceptibility in this and other captive exotic species to iron storage disease is not clear. Hepcidin, a key iron regulatory hormone, is involved in the regulation of iron absorption in humans and other mammalian species and a deficiency in hepcidin has been associated with a number of genetic mutations resulting in hemochromatosis in humans. The objectives of this thesis were to identify whether there is a functional mutation in the hepcidin gene in the Egyptian fruit bat that may increase the susceptibility of this species to iron storage disease, and whether there is a functional deficiency in hepcidin gene expression in the Egyptian fruit bat in response to iron challenge. We compared the coding region of the hepcidin gene amongst several species of bats and investigated hepcidin response to intramuscular injection of iron dextran amongst three species of bats with variable susceptibility to iron storage disease; the Egyptian fruit bat, the straw-colored fruit bat (Eidolon helvum), and the common vampire bat (Desmodus rotundus). While a number of genetic differences were identified amongst species, a functional mutation that could result in decreased hepcidin activity was not identified in the Egyptian fruit bat. Bats exhibited marked variation in hepcidin gene expression, with the highest level of hepcidin response to iron challenge in the common vampire bat. While the Egyptian fruit bat exhibited significant hepcidin response to iron challenge, the magnitude of response was lower than that in the common vampire bat and lower than expected based on findings in healthy humans. The straw-colored fruit bat did not exhibit any hepcidin response despite a significant increase in iron stores, which suggests this species may have evolved an alternate mechanism for coping with excessive iron or may be more susceptible to iron overload than previously recognized.

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Keywords

iron metabolism, iron regulation, hemochromatosis, iron storage disease, bats, Egyptian fruit bat, Straw-colored fruit bat, Common vampire bat, hepcidin, iron, iron overload, hepcidin gene, Rousettus aegyptiacus, Eidelon helvum, Desmodus rotundus

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