Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serum iron and ferritin concentrations were measured in 1,532 regular blood donors from South Wales who were undergoing HLA typing prior to registration on the British Bone Marrow and Platelet Donor Panel. Serum transferrin concentrations were determined for donors with serum iron concentrations > 24 mumol/l. There were 25 donors with transferrin saturations > 50% and 11 with transferrin saturations > 60%. There were five donors with serum ferritin concentrations > 200 micrograms/l (women) or > 300 micrograms/l (men). Two of the male donors had transferrin saturations > 50% and serum ferritin > 300 micrograms/l on repeat blood samples and are being treated by venesection. Donors with HLA-A3 did not differ from those without A3 in serum iron or ferritin concentrations. Even in the group of donors who were apparently homozygous for A3 there were neither abnormal serum iron nor ferritin concentrations. Although it is well established that measurements of transferrin saturation are required to detect homozygous haemochromatosis (HFE) in its earlier stages, the number of 'false-positive' results is likely to be unacceptably high for screening blood donors. Serum ferritin assays should identify donors with HFE and iron overload before the onset of liver damage. With two million regular donors and 300,000 new donors each year, a significant proportion of the U.K. population will be screened within 10 years. The assay of serum ferritin identifies donors with low levels of storage iron who are at risk of developing iron-deficiency anaemia. Furthermore, donation frequency may be increased for those donors with higher ferritin concentrations when blood supplies are low.
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PMID:Serum ferritin, blood donation, iron stores and haemochromatosis. 803 93

A candidate gene (HFE) has been described for hereditary hemochromatosis on chromosome 6. The study of well-defined atypical hemochromatosis families using genetic markers may increase our understanding of the sensitivity and the specificity of genotyping in hemochromatosis. One hundred and thirteen Canadian families with genetic hemochromatosis were surveyed to find atypical families as possible examples of people with genetic recombinations. All families underwent clinical investigations including iron studies and HLA typing. Each individual was typed at three polymorphic microsatellite loci (D6S105, D6S1260, and D6S299) on chromosome 6. Sixteen subjects were studied for the two missense mutations described for the candidate gene for hemochromatosis (C282Y, H63D). There were eight HLA-identical siblings found in four different families (five men, three women; age range 30-72) with normal transferrin saturation and ferritin levels. There were two patients identified who were homozygous for the C282Y mutation without biochemical evidence of iron overload, and two patients with no evidence of the mutation with significant iron overload. Our conclusions are as follows: 1) finding HLA-identical siblings without iron overload does not confirm a genetic recombination, 2) difficulties in phenotypic definition of disease and the description of new iron overload syndromes that may differ from classical genetic HC cause complicated genetic studies, and 3) finding iron-loaded patients without a C282Y mutation and patients that are homozygous for the C282Y mutation without evidence of iron overload may limit the use of genotyping in population screening for hemochromatosis.
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PMID:Clinical and family studies in genetic hemochromatosis: microsatellite and HFE studies in five atypical families. 932 24

Two mutations have been described on the gene considered to be responsible for genetic hemochromatosis, the HLA-H or HFE gene. The C282Y mutation is a disease-causing mutation in most cases of genetic hemochromatosis, but involvment of the H63D substitution in the pathogenesis of the disease is unclear. Compound heterozygotes for both substitutions could help to determine whether or not the second mutation is a worsening factor when associate in trans with the C282Y mutant. We found twenty nine compound heterozygotes during DNA analysis of patients referred to our laboratory for the screening of those mutations. Clinical and biological data were obtainable for 23 of them. Compound heterozygotes could be divided into two groups: subjects with or without iron overload. Five (22%) individuals had normal ferritin levels, whereas 18 had elevated ferritin concentrations (78%). Among those 18 patients, 7 (30% of the total) had clinical and biological criteria of genetic hemochromatosis. Eleven had iron overload without all the criteria of genetic hemochromatosis. Such a high proportion of genetic hemochromatosis is not found in heterozygotes for the C282Y mutation alone neither in our series nor in the literature. Compound heterozygotes for the C282Y and the H63D mutations may have a higher risk of iron overload or genetic hemochromatosis than single heterozygotes for the C282Y mutation. We propose a schematic theoretical representation that could explain this fact at the protein level. Further fundamental studies on the protein, and clinical follow up of compound heterozygotes could help to ascertain this hypothesis.
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PMID:Compound heterozygotes for hemochromatosis gene mutations: may they help to understand the pathophysiology of the disease? 941 Apr 70

The human leukocyte antigen (HLA)-linked iron-loading gene (HFE) associated with the autosomal recessive disorder known as hereditary hemochromatosis occurs in about 10% of subjects of European descent, most of whom are unaffected heterozygotes. In contrast, the 3 to 5 per 1,000 who are homozygotes are at risk of developing severe and potentially lethal iron overload, with damage to a number of organs, including the liver, pancreas, heart, joints, and the endocrine glands. Although the removal of the excess iron by repeated venesections is simple, effective, and safe therapy, much of the organ damage, once it has occurred, is irreversible. Because symptoms are often nonspecific, it is important for physicians in the relevant specialties to develop a high index of suspicion and to apply widely the appropriate screening tests, including transferrin saturation and serum ferritin concentration. Equally important is the detection of affected family members, who are usually siblings, before they have developed significant iron overload. In addition, screening of populations in which the prevalence of hereditary hemochromatosis is high has become an attractive and cost-effective option, especially now that the molecular structure of the HFE gene has been defined. Using this approach it is now possible to detect individuals homozygous or heterozygous for the gene using a simple polymerase chain reaction-based test. The application of this exciting new tool promises to provide fresh insights into the range of phenotypic expression in hereditary hemochromatosis. A challenge for the future will be to define the genetic or environmental factors responsible for iron overload in up to 20% of patients with clinical hemochromatosis who do not have the HFE gene.
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PMID:Hereditary hemochromatosis: etiologic, pathologic, and clinical aspects. 946 Aug 9

Genetic hemochromatosis (GH) is closely associated with genes of the major histocompatibility complex (MHC) on chromosome 6. Recently, a candidate gene for GH, with structural similarities to MHC class I genes, designated HLA-H and presently named HFE, has been cloned. The HFE gene is localized telomeric to the MHC and several reports have indicated that the HFE gene is mutated in GH patients. In the present study we have analyzed the relationship of HFE gene variants and disease manifestation in GH patients and family members. Fifty-seven patients with GH, 73 family members and 153 healthy blood donors were studied for the amino acid dimorphism at codon 63 (His63Asp=H63D) and codon 282 (Cys282Tyr= C282Y) of the HFE gene. The codon 63 and 282 dimorphism were defined by PCR amplification of genomic DNA samples and restriction enzyme digestion using RsaI/SnaBI for C282Y and BclI/MboI for H63D. Ferritin, transferrin serum levels and total iron-binding capacity were determined prior to therapeutic intervention. The Tyr-282 substitution occurred in 53 (93%) of patients compared with 8 (5.2%) of controls (OR=169, P<0.0001). Fifty-one (90%) patients were Tyr-282 homozygous. In contrast, the Asp-63 substitution was present in 5 (8.8%) of the patients compared with 34 (22%) of controls (OR=0.39, P=NS) with none of the patients being homozygous. In Tyr-282 homozygous GH patients serum ferritin levels, transferrin saturation, liver iron and liver iron index were elevated significantly compared to Tyr-282-negative patients, whereas no difference was observed between Tyr/Cys-282 heterozygous and Tyr-282-negative patients.
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PMID:HFE codon 63/282 (H63D/C282Y) dimorphism in German patients with genetic hemochromatosis. 955 Mar 27

Among patients with hepatic iron overload, the distinction between hereditary hemochromatosis (HH), a common yet treatable genetic disease, and other causes of siderosis remains problematic. The recent discovery of a specific homozygous mutation (C282Y) in a novel major histocompatibility complex class I-like gene (named HLA-H or HFE) in 80% to 100% of well-characterized cases of HH suggests that direct DNA-based mutation analysis may help resolve this dilemma. To assess the clinical utility of direct HLA-H mutation analysis in a typical diagnostic setting, we measured genotypic and phenotypic parameters of iron overload in 37 subjects with biopsy-proven hepatic siderosis (2+ or greater) and in 127 healthy control subjects. The prevalence of C282Y homozygotes was significantly greater in the hepatic siderosis group (32%) than in the control group (0%), confirming the association between this homozygous mutation and hepatic iron overload. In the hepatic siderosis group, C282Y homozygotes had significantly higher hepatic iron and ferritin levels, a significantly lower prevalence of hepatitis C virus or alcoholic liver disease, but no significant difference in the saturation of serum transferrin. Of the 20 subjects with a hepatic iron index (HII) in the previously defined "hemochromatosis range" (>1.9), 9 (45%) were C282Y homozygotes. Of the 11 nonhomozygous subjects with an HII greater than 1.9 (presumed false-positive HIIs), 10 (91%) had hepatic cirrhosis compared with 3 of 9 (33%) homozygotes with an HII greater than 1.9 who had cirrhosis (P<.02). The HII thus has poor diagnostic specificity for predicting genotypic HH in patients with cirrhosis. We conclude that direct determination of the HLA-H C282Y genotype may be the single best diagnostic test for HH, particularly in patients with cirrhosis, for whom the HII is quite nonspecific.
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PMID:Hepatic iron overload: direct HFE (HLA-H) mutation analysis vs quantitative iron assays for the diagnosis of hereditary hemochromatosis. 957 64

High frequencies of the haemochromatosis-related HFE C282Y mutation have been reported in North European populations, in which a high proportion of patients with the disease are homozygotes. However, the degree of penetrance of this genotype is unknown. We determined the HFE C282Y and H63D genotypes of 411 consenting volunteer blood donors on Jersey, and the serum ferritin and transferrin saturation levels of 204 of these volunteers. The C282Y allele frequency was found to be 8.3% in 822 chromosomes, indicating a homozygote frequency of 1/145. Consistent with this, four C282Y homozygotes were detected in 411 volunteers. As there are only 18 patients presently receiving treatment for haemochromatosis on Jersey, out of a total population of about 85000, there is a large discrepancy between the number of haemochromatosis patients and the number of C282Y homozygotes in this population. In a preliminary study of 204 consenting volunteers we found a correlation between transferrin saturation and HFE H63D/ C282Y genotype (P=0.017) and between serum ferritin and genotype (P = 0.056). We also observed elevated values of transferrin saturation in the two C282Y homozygotes assayed. These results suggest that a large proportion of the many undetected C282Y homozygotes on Jersey and in similar populations could be in the preclinical stages of haemochromatosis, and warrant investigation. However, there may be a wide variation in the expression of the condition, and a more extensive study of the level of disease penetrance encompassing a large number of hitherto undetected C282Y homozygotes is therefore imperative.
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PMID:The effect of HFE mutations on serum ferritin and transferrin saturation in the Jersey population. 960 37

Hepatic iron has been associated with more aggressive liver disease in chronic viral hepatitis. We evaluated whether the recently described C282Y mutation of the hemochromatosis gene, designated HFE (responsible for at least 83% of hereditary hemochromatosis), was associated with more advanced liver disease in chronic hepatitis C. One hundred thirty-seven patients with biopsy-proven chronic hepatitis C were studied and liver biopsies scored for necroinflammation (grade 0-18) and fibrosis (stage 0-6). Genomic DNA was amplified by polymerase chain reaction and the C282Y mutation identified by restriction with RsaI and electrophoretic separation of restriction fragments. Ten (7.3%) patients had the C282Y mutation. No C282Y homozygous patients were identified. Age, sex distribution, and estimated weekly alcohol consumption were not significantly different between those with and without the mutation. Serum ferritin was higher in the heterozygotes (mean, 339 microg/L) compared with homozygous wild types (153 microg/L; P = .0005). In the majority of patients, liver iron was graded 0 out of 4, but hepatocyte iron staining was more commonly present in heterozygotes compared with homozygous normals (30% compared with 4% [P = .02]). Liver disease was more advanced in those with the mutant allele (mean fibrosis stage: 3.6, compared with wild type: 1.5 [P = .01]). Cirrhosis was found more often in those with the mutation (40%) compared with those without (8.7%) (P = .01; odds ratio: 7.6 [1.9-31.2]). There was no significant difference in inflammation scores between heterozygotes and wild type (mean, 5.4 compared with 4.1). Hepatitis C virus (HCV)-RNA titers were measured by branched DNA assay (HCV RNA 2.0-Chiron), and there was no difference between heterozygous and homozygous normal patients. Thus, despite relatively minor increases in iron stores, individuals who are heterozygous for hemochromatosis appear to develop more fibrosis in chronic hepatitis C. Venesection may be useful therapy in this subgroup.
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PMID:Heterozygosity for hereditary hemochromatosis is associated with more fibrosis in chronic hepatitis C. 1033 38

The mechanism by which a novel major histocompatibility complex class I protein, HFE, regulates iron uptake into the body is not known. HFE is the product of the gene that is mutated in >80% of hereditary hemochromatosis patients. It was recently found to coprecipitate with the transferrin receptor (Feder, J. N., Penny, D. M., Irrinki, A., Lee, V. K., Lebron, J. A., Watson, N., Tsuchihashi, Z., Sigal, E., Bjorkman, P. J., and Schatzman, R. C. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 1472-1477; Parkkila, S., Waheed, A., Britton, R. S., Bacon, B. R., Zhou, X. Y., Tomatsu, S., Fleming, R.E. , and Sly, W. S. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 13198-13202) and to decrease the affinity of transferrin for the transferrin receptor (Feder et al.). In this study, HeLa cells were transfected with HFE under the control of the tetracycline-repressible promoter. We demonstrate that HFE and the transferrin receptor are capable of associating with each other within 30 min of their synthesis with pulse-chase experiments. HFE and the transferrin receptor co-immunoprecipitate throughout the biosynthetic pathway. Excess HFE is rapidly degraded, whereas the HFE-transferrin receptor complex is stable. Immunofluorescence experiments indicate that they also endocytose into transferrin-positive compartments. Combined, these results suggest a role for the transferrin receptor in HFE trafficking. Cells expressing HFE have modestly increased levels of transferrin receptor and drastically reduced levels of ferritin. These results implicate HFE further in the modulation of iron levels in the cell.
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PMID:Co-trafficking of HFE, a nonclassical major histocompatibility complex class I protein, with the transferrin receptor implies a role in intracellular iron regulation. 970 50

Genetic haemochromatosis (GH) is one of the most common hereditary diseases, with a prevalence of 1-5/1000 in the Western world. In 90 per cent of cases a mutation is found in an MHC-class-like gene designated HFE, involving a substitution at position 282 of the HFE protein and resulting in defective binding of beta(2)-microglobulin. Animals with beta(2)-microglobulin deficiency develop iron overload, indicating this protein to be involved in the regulation of iron metabolism. Hepatic iron overload results in increased production of oxygen free radicals and peroxidation of membrane lipids, thus causing damage to lysosomes, mitochondria and the endoplasmic reticulum. These cellular events may progress to cell death, fibrogenesis, and the development of liver cirrhosis which is associated with a 200-fold increase in risk of hepatocellular carcinoma. In addition to the risk of diabetes, arthralgia, cardiac arrhythmia, pituitary insufficiency and hypogonadism, iron excess is also associated with aggravation of the cytotoxic effects exerted on hepatocytes by other agents such as alcohol or hepatotrophic viruses. The treatment of iron overload in GH consists of weekly venesection until the serum ferritin level is normalized, followed by maintenance therapy. Survival rates are normal if the disease is detected and treated before complications have developed.
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PMID:[Defective iron metabolism in genetic hemochromatosis. The mechanisms remain unknown in spite of genetic advances]. 972 62


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