학술논문
Population-based analysis of the frequency of HFE gene polymorphisms: correlation with the susceptibility to develop hereditary hemochromatosis
Document Type
Report
Author
Source
Molecular Medicine Reports. July 1, 2016, p630, 7 p.
Subject
Language
English
ISSN
1791-2997
Abstract
Introduction Iron contributes in multiple ways to the physiological processes of the human body, both as a part of cytochrome heme, as well as a key component molecule in hemoglobin [...]
Hereditary hemochromatosis (HH) is an autosomal recessive genetic disease, characterized by increased dietary iron absorption. Due to the absence of an effective excretory mechanism, the excess iron in the body may accumulate resulting in toxic effects. The HFE gene also affects the activity of hepcidin, a hormone which acts as a negative regulator of iron metabolism. In this study, we performed a population-based analysis of the distribution of three hemochromatosis-related polymorphisms in the HFE gene (rs1800562, rs1799945 and rs1800730). DNA from 1,446 non-related individuals of Greek ethnicity was collected and analyzed, either from whole blood or buccal swabs. The frequency distribution of these HFE gene polymorphisms was then determined. The results revealed that in our Greek population cohort (gr) the frequencies of each polymorphism were as follows: rs1800562: GG (wild-type)=97.0%, GA=1.5%, AA=1.5%; rs1799945: CC (wild-type)=74.4%, CG=23.4%, GG=2.2%; rs1800730: AA (wild-type)=98.1%, AT=1.5% and TT=0.4%. No association between the HFE polymorphisms rs1800562, rs1799945 and rs1800730 and gender could be established. As regards the rs1800562 polymorphism, the A allele (mutant) was ~1.8-fold more frequent in the European population (eur) than in the Greek population [(gr)=2,3% Key words: hereditary hemochromatosis, HFE gene, iron metabolism, polymorphism, hepcidin
Hereditary hemochromatosis (HH) is an autosomal recessive genetic disease, characterized by increased dietary iron absorption. Due to the absence of an effective excretory mechanism, the excess iron in the body may accumulate resulting in toxic effects. The HFE gene also affects the activity of hepcidin, a hormone which acts as a negative regulator of iron metabolism. In this study, we performed a population-based analysis of the distribution of three hemochromatosis-related polymorphisms in the HFE gene (rs1800562, rs1799945 and rs1800730). DNA from 1,446 non-related individuals of Greek ethnicity was collected and analyzed, either from whole blood or buccal swabs. The frequency distribution of these HFE gene polymorphisms was then determined. The results revealed that in our Greek population cohort (gr) the frequencies of each polymorphism were as follows: rs1800562: GG (wild-type)=97.0%, GA=1.5%, AA=1.5%; rs1799945: CC (wild-type)=74.4%, CG=23.4%, GG=2.2%; rs1800730: AA (wild-type)=98.1%, AT=1.5% and TT=0.4%. No association between the HFE polymorphisms rs1800562, rs1799945 and rs1800730 and gender could be established. As regards the rs1800562 polymorphism, the A allele (mutant) was ~1.8-fold more frequent in the European population (eur) than in the Greek population [(gr)=2,3% Key words: hereditary hemochromatosis, HFE gene, iron metabolism, polymorphism, hepcidin