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The HFE H63D is a single-nucleotide polymorphism in the HFE gene (c.187C>G, rs1799945), which results in the substitution of a histidine for an aspartic acid at amino acid position 63 of the HFE protein (p.His63Asp). HFE participates in the regulation of iron absorption. [1] [2] [3] Homozygous H63D variant can occasionally be the cause of ...
The H63D variant is just a gene polymorphism, and if there are no other changes, it may not have clinical significance. [41] [42] [43] In a 2014 study, H63D homozygosity was associated with an elevated mean ferritin level, but only 6.7% had documented iron overload at follow-up. [44]
The gene involved with patients diagnosed with type 3 hemochromatosis is TFR2 ( or HFE3). HFE (not the same as HFE3) is most often the cause of hereditary hemochromatosis. [14] The HFE gene provides instructions for producing a protein that is located on the surface of cells, primarily liver and intestinal cells.
It is possible to delete part or all of a gene of interest in mice (or other experimental animals) as a means of studying function of the gene and its protein. Such mice are called “knockouts” with respect to the deleted gene. Hfe is the mouse equivalent of the human hemochromatosis gene HFE. The protein encoded by HFE is Hfe.
For instance, a severe form of iron overload, juvenile hemochromatosis, is a result of severe hepcidin deficiency. The majority of cases are caused by mutations in the hemojuvelin gene (HJV or RGMc/repulsive guidance molecule c). The exceptions, people who have mutations in the gene for ferroportin, prove the rule: these people have plenty of ...
These mutations lead to a defect in the localization of ferroportin. Gain-of-function mutations are associated with type 4B and lead to production of ferroportin that resists negative regulation by hepcidin. [8] [9] Unlike other forms of hemochromatosis, which have a recessive pattern of inheritance, type 4 is an autosomal dominant dominant ...
Iron overload (also known as haemochromatosis or hemochromatosis) is the abnormal and increased accumulation of total iron in the body, leading to organ damage. [1] The primary mechanism of organ damage is oxidative stress, as elevated intracellular iron levels increase free radical formation via the Fenton reaction.
Juvenile hemochromatosis can be caused by inheriting two mutated copies , one from each parent, of the genes for the proteins hemojuvelin (HFE2/HJV) or hepcidin (HAMP), and the disease can be subdivided into hemochromatosis types 2A and 2B according to which gene/protein is affected. [2] [3]