UNIPROT:P06889 - FACTA Search

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Most cases of hemochromatosis are associated with mutations of the HFE gene on Ch6p. In southern Italy and central Alabama, the percentages of patients with hemochromatosis who have "atypical" HFE genotypes (defined as lack of C282Y homozygosity, C282Y/H63D compound heterozygosity, or H63D homozygosity) are relatively great. A mutation of the transferrin receptor-2 gene (TFR2; exon 6, nt 750 C --> G, replaces TAC with stop signal TAG; Y250X) on Ch7q22 was recently identified in two Sicilian families with HFE mutation-negative hemochromatosis. We wanted to estimate the frequency of this mutation in persons from central Alabama. We evaluated Caucasian hemochromatosis probands with atypical HFE genotypes and African Americans with primary iron overload. We also studied control Caucasians, including persons of southern Italian/Sicilian heritage, and control African Americans. Analysis of genomic DNA was performed using a PCR-sequence-specific priming assay and positive control specimens from Sicilian hemochromatosis subjects heterozygous and homozygous for Y250X. Among Alabama subjects, this allele was not detected in 113 Caucasians, including 21 hemochromatosis probands with atypical HFE genotypes and 92 normal control subjects (including 27 of southern Italian/Sicilian descent). In African Americans, Y250X was not detected in 20 index cases with primary iron overload or in 274 unrelated control subjects. We conclude that Y250X is uncommon in Caucasians with hemochromatosis associated with atypical HFE genotypes, in African Americans with primary iron overload, and in the general Caucasian and African American population subgroups in central Alabama.
Blood Cells Mol Dis
PMID:Transferrin receptor-2 (TFR2) mutation Y250X in Alabama Caucasian and African American subjects with and without primary iron overload. 1135 91

More than 80% of the patients affected by hereditary hemochromatosis, a common inherited iron disorder, are homozygotes for the 845G --> A (C282Y) mutation of the HFE gene. However, depending on the population, 10-20% of hereditary hemochromatosis can be linked either to other HFE genotypes, particularly the compound heterozygous state for C282Y and the 187 C --> G (H63D) mutation, or to mutations of new other genes. Recently, Camaschella et al. (Nat. Genet. 25, 14-15, 2000) identified a stop mutation (exon 6 nt 750 C --> T, Y250X) on the transferrin receptor-2 (TFR2) gene in two unrelated Sicilian families with hereditary hemochromatosis. The TFR2 gene is a transferrin receptor gene homologue that seems to be involved in iron metabolism. Moreover, one of the patients described by Camaschella et al. was a H63D homozygote. H63D homozygosity can be associated with various phenotypes from asymptomatic subjects to patients with a typical form of hereditary hemochromatosis. Thus, the Y250X mutation could be the molecular defect responsible for hereditary hemochromatosis in subjects with atypical HFE genotypes. We have searched for the Y250X mutation in 63 unrelated French subjects. Forty-three had a diagnosis of hereditary hemochromatosis based on classical criteria. This group included 12 H63D homozygotes, 3 C282Y heterozygotes, and 3 patients with none of the two most prevalent HFE mutants. These 18 patients had no other HFE sequence change and were subsequently subjected to DNA sequencing of the 15 last exons and flanking sequences of the TFR2 gene. The 25 remaining hereditary hemochromatosis patients who were tested for the Y250X mutant were compound heterozygotes for the C282Y and H63D mutations. Finally, we also tested for this TFR2 mutation 20 H63D homozygotes with milder manifestations of iron overload and no acquired cause of iron overload. None of the 63 tested subjects had the Y250X mutation. Concurrently, none of the 18 hereditary hemochromatosis patients who had their TFR2 gene sequenced had any deleterious mutation. Thus, TFR2 mutations are not responsible for hemochromatosis in non-C282Y homozygous patients of our area.
Blood Cells Mol Dis
PMID:Transferrin receptor-2 gene and non-C282Y homozygous patients with hemochromatosis. 1135 91

We have identified five single nucleotide polymorphisms (SNPs) upstream (5') of the transferrin coding region. One polymorphism is in the 5' UTR at nt +49, and four are in the promoter region at nt -34, -551, -617, and -739, numbering from the start of transcription. The -34 and -617 SNPs are tightly but not completely linked. The -34 polymorphism lies between a conserved Sp1 site and the TATA box. The -617 polymorphism is within the DRII enhancer region. Five haplotypes have been defined from these SNPs by the identification of at least one homozygous individual, and two other haplotypes were deduced from heterozygous individuals. The total iron-binding capacity associated with each transferrin haplotype was haplotype 2 > 1 > 4 > 3. Transferrin promoter haplotype 2 had a significantly higher mean TIBC and haplotype 3 had a significantly lower mean TIBC than the more common haplotype 1. Persons with haplotype 4, which includes the -34T and -617A minor alleles, have a lower mean TIBC but the difference was not statistically significant. In normal individuals, the differences in the haplotypes were not found to be associated with differences in transferrin saturation and ferritin levels. There was no difference in the extent of increase in the mean TIBC levels in individuals with iron deficiency anemia in regard to their haplotype. Furthermore, there was no difference in the relative frequencies of the transferrin haplotypes in the iron-deficient population. In hemochromatosis patients who were homozygous for the C282Y HFE mutation, no particular haplotype was associated with a significant difference in transferrin saturation or ferritin levels. In White patients with Parkinson's disease, a disorder in which there is abnormal iron deposition in the brain, the presence of transferrin haplotype 3 was in slight excess over the normal White population.
Blood Cells Mol Dis
PMID:Polymorphisms in the transferrin 5' flanking region associated with differences in total iron binding capacity: possible implications in iron homeostasis. 1150 65

The gene responsible for hemochromatosis (HFE) has been identified on the short arm of chromosome 6, 4.5 Mb telomeric to HLA-A. A major mutation C282Y is closely correlated with the disease, as it accounts for 68 to 100\% of the cases of hemochromatosis. Nevertheless, some C282Y homozygotes subjects have no clinical or biological expression of the disease. Moreover, in Northern European populations a large discrepancy is observed between the number of C282Y homozygotes and the number of diagnosed hemochromatosis patients, suggesting incomplete penetrance of the mutation. To localize and identify the modifying genes, we investigated eight families including C282Y homozygous relatives showing no clinical signs of the disease, in addition to the hemochromatosis patients. Genomic DNA from 20 C282Y homozygotes (10 patients and 10 siblings presenting no or minor biological abnormalities) were studied. Five polymorphisms from the HFE gene were determined by PCR restriction. Extended haplotypes of the 6p21.3 region were constructed with 10 microsatellite markers. All the C282Y homozygotes shared the same HFE polymorphism. The haplotypes presented no significant difference between the probands and their unaffected relatives. These studies suggest that neither HFE polymorphism nor genes surrounding HFE are able to modulate HFE expression.
Blood Cells Mol Dis
PMID:Low penetrant hemochromatosis phenotype in eight families: no evidence of modifiers in the MHC region. 1150 63

Hereditary hemochromatosis (HH) is a genetically heterogeneous disease. The HFE gene resides on chromosome 6 and its mutations account for the majority of HH cases in populations of northern European ancestry. Recently, two new types of hemochromatosis have been identified: Juvenile hemochromatosis (JH or HFE2), which maps to chromosome 1q21, and an adult form defined as HFE 3, which results from mutations of the TFR 2 gene, located at 7q22. We have performed a linkage study in five unrelated families of Greek origin with non-HFE hemochromatosis. Linkage at the chromosome 1q21 JH locus was detected in affected members with the use of polymorphic markers. Comparison of haplotypes between Greek and Italian JH patients revealed the presence of a common haplotype. However, the fact that many other haplotypes carrying the JH defect were observed in the two populations indicates that the respective mutations may have occurred in different genetic backgrounds. We suggest that hemochromatosis patients without HFE mutations should be evaluated for other possible types of hemochromatosis since hemochromatosis type 3 (HFE3) has a clinical appearance similar to HFE 1, and JH may have a late onset in some cases.
Blood Cells Mol Dis
PMID:Linkage to chromosome 1q in Greek families with juvenile hemochromatosis. 1177 58

We have examined transferrin receptor-1, ferroportin, ceruloplasmin, ferritin light and heavy chains, iron regulatory proteins (IRP)-1 and -2, and hepcidin for mutations that might modulate the iron burden of individuals harboring the common mutant hemochromatosis HFE genotype C282Y/C282Y or cause hemochromatosis independent of mutations in the HFE gene. In a group of white, Asian, and African-American normal and iron-overloaded individuals, the coding and flanking regions of these genes were completely sequenced. Numerous coding region and promoter polymorphisms were detected. These were further examined for association with differences in iron accumulation as measured by plasma transferrin saturation and ferritin levels, but no such association could be documented.
Blood Cells Mol Dis
PMID:A study of genes that may modulate the expression of hereditary hemochromatosis: transferrin receptor-1, ferroportin, ceruloplasmin, ferritin light and heavy chains, iron regulatory proteins (IRP)-1 and -2, and hepcidin. 1178 42

Porphyria cutanea tarda (PCT), a disorder characterized by a photosensitive dermatosis and hepatic siderosis, is caused by a decreased activity of the hepatic enzyme uroporphyrinogen decarboxylase (UROD). Two forms of PCT have been described: a familial one (fPCT) with an inherited decrease of UROD activity in all tissues and a sporadic one (sPCT) with a decreased UROD activity restricted to the liver. Iron overload and acquired factors including hepatic viral infections, alcohol, drugs contribute to the expression of PCT. In 65 French sPCT patients and 108 controls we have evaluated the respective role of iron and HCV status, the hemochromatosis (HFE) gene mutations frequencies (H63D. S65C, C282Y), and in a case control study we searched for an association between sPCT and the human transferrin receptor-1 (TFRC1) gene whose product is thought to be in functional association with the HFE protein: three single nucleotide polymorphisms (SNPs) previously characterized and 2 novel ones were studied. The iron-related parameters and transaminases were higher in sPCT patients than those of non-porphyric controls. Of the sPCT patients studied, 28% were HCV positive. In the HFE gene, 17% of sPCT patients carried C282Y mutation compared to 4% in controls, no significant differences were found with H63D and S65C variants. Compound heterozygous genotypes, C282Y/H63D or C282Y/S65C, were not significantly different in sPCT and control groups. Independently from HFE gene mutations, an association was found between the IVS4+198 T allele in the TFRC1 gene and sPCT patients. Analysis of HFE genotypes indicated that C282Y (but not H63D nor S65C) is a susceptibility factor for the development of sPCT in West European continental patients. However, analysis of TFRC1 genotypes suggest that sPCT should be considered as a multifactorial disorder in which other intracellular iron metabolism genes could be involved.
Cell Mol Biol (Noisy-le-grand) 2002 Feb
PMID:Hemochromatosis (HFE) and transferrin receptor-1 (TFRC1) genes in sporadic porphyria cutanea tarda (sPCT). 1192 45

Juvenile hemochromatosis (JH) is a characteristic form of genetic hemochromatosis with an early onset and severe clinical course leading to death if iron depletion treatment is not timely applied. Clinical complications include liver cirrhosis, heart failure, hypogonadotropic hypogonadism, and diabetes. In the present study we report the first case of JH described in Spain. Biochemical and genetic characteristics of the patient and relatives (parents and siblings) were investigated. No individual presented either the mutation at position 845 of the HFE gene or at position 750 of the TFR2 gene, associated with other types of hemochromatosis. Nevertheless, some individuals were homozygous for the mutation at position 187 of HFE. The hypothetic region of association with JH, located at chromosome 1q, was also investigated and results show that the patient presented a unique genotypic combination in 1q. The only brother with heavy iron deposits in hepatocytes was found to be heterozygous for the JH-associated region and homozygous for the HFE187 gene, suggesting a synergistic effect between both hemochromatosis-associated genes.
Blood Cells Mol Dis
PMID:Juvenile hemochromatosis in a Spanish family. 1248 7

We report clinical and genetic characteristics of seven juvenile hemochromatosis (JH) patients (six females, one male) in two unrelated kinships from the southeastern U.S. All had severe iron overload. Mean age at diagnosis was 20 +/- 5 years (range 8-23 years). In six patients, the mean age at onset of signs and symptoms attributable to iron overload was 15 +/- 2 years (12-18 years); an 8-year-old girl had no symptoms. Six of the seven patients had hypogonadotrophic hypogonadism, two had severe cardiomyopathy, seven had hepatomegaly, two had hepatic cirrhosis, and five had hyperpigmentation. Two of four siblings with JH also had Hashimoto thyroiditis. One patient with severe cardiomyopathy improved with therapeutic phlebotomy, medical therapy for congestive heart failure, and a permanent pacemaker; the other died before phlebotomy was initiated. Estimates of average daily iron absorption before phlebotomy-induced iron depletion were 2.3, 3.1, and 1.7 mg in a male and two females, respectively. Both parents of four siblings with JH were heterozygous at two Ch1q loci (D1S1156, D1S2344); each of the four affected siblings was homozygous at both loci. An unaffected sib was heterozygous at D1S1156. One patient was heterozygous for HFE H63D, five others did not have HFE C282Y or H63D, and one was unavailable for testing. We conclude that JH occurs in the southeastern U.S. It is likely that JH allele(s) in at least one of the present kinships occur(s) on Ch1q, and presumably this represents a mutation(s) of the same gene localized to Ch1q in Italian and Greek JH kindreds. The present cases do not have HFE genotypes typical of hemochromatosis diagnosed in adults. Hashimoto thyroiditis, linked to Ch6p in many kinships, did not segregate with JH alleles on Ch1q in the present kinship.
Blood Cells Mol Dis
PMID:Juvenile hemochromatosis in the southeastern United States: a report of seven cases in two kinships. 1248 11

Hereditary hemochromatosis is a genetically heterogeneous disease. Common HFE mutations (C282Y and H63D) are related to the majority of hereditary hemochromatosis cases in populations of Northern European ancestry (HFE1). Juvenile hemochromatosis (JH) is a more severe iron overload disorder, usually presenting at the second decade of life. The gene responsible for JH lies on a genetic locus at chromosome 1q. We have performed a genetic linkage study in three families of Northern Greek origin with typical clinical features of JH. In two families results were in accordance with linkage to chromosome 1q. In one family linkage of the disease to the genetic loci at 1q21, 7q22, and 6p22 was excluded. We suggest that more than one gene may underlie the JH phenotype. This genetic type of hemochromatosis may be designated 1q unlinked juvenile hemochromatosis. Family studies are necessary to establish the genetic diagnosis of JH.
Blood Cells Mol Dis
PMID:Genetic heterogeneity underlies juvenile hemochromatosis phenotype: analysis of three families of northern Greek origin. 1249 Feb 83

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