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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hemochromatosis type 2 (
HFE2
) or juvenile hemochromatosis (JH) is a rare recessive disorder that causes iron overload, characterized by early onset and severe clinical course. The JH locus maps to chromosome 1q, in a 4-cM region encompassing markers D1S442 and D1S2347. Recently a gene named ZIRTL has been characterized and mapped to 1q21. This gene belongs to a family of divalent metal ion-transporting genes that encode for proteins involved in transport of different metals, including iron. Thus, the ZIRTL gene represents a positional and functional candidate for JH. Here we further restrict the candidate region through segregation analysis of two new polymorphic markers and haplotype analysis in JH families. Furthermore, we exclude ZIRTL as a JH candidate gene showing that it maps outside the critical interval and that its genomic sequence is normal in three patients.
Blood Cells
Mol
Dis 2000 Jun
PMID:Exclusion of ZIRTL as candidate gene of juvenile hemochromatosis and refinement of the critical interval on 1q21. 1095 Sep 40
The application of molecular genetics to haemochromatosis and experimental mutagenesis in animals has transformed our capacity to investigate the unique physiology of iron homeostasis-a key problem in biology and medicine. The identification of HFE, the principal determinant of adult haemochromatosis (HFE1; OMIM 235200) and TfR2, recently implicated in a rarer form of the inherited disorder (HFE3; OMIM 604250), and the promise of candidate genes for juvenile haemochromatosis (
HFE2
; OMIM 602390) and neonatal haemochromatosis (OMIM 231100) provide the foundation for important studies into the control mechanism of iron balance in humans. The rare conditions atransferrinaemia (OMIM 209300) and acaeruloplasminaemia (OMIM 604290), each associated with tissue iron overload, have already implicated the iron transport ligand transferrin and the copper transporter caeruloplasmin in the control of iron homeostasis. Gene mapping studies in animal mutants with anaemia due to defects in the uptake or tissue transfer of iron have yielded novel proteins involved in iron transport: DMT1 (brush border transporter of ferrous iron) in the mk/mk mouse, hephaestin (basolateral multi-copper ferroxidase) in the sex-linked anaemic mouse (sla) and ferroportin1 (basolateral iron exporter) in zebrafish weh mutants. The discovery of genes that determine heritable defects of iron absorption and regulation in animals and humans thus holds promise for a complete mechanistic understanding of the molecular pathophysiology of iron metabolism.
Hum
Mol
Genet 2000 Oct
PMID:Haemochromatosis: novel gene discovery and the molecular pathophysiology of iron metabolism. 1100 92
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
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
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
Juvenile hemochromatosis
(JH) is an autosomal recessive disease causing iron overload before age 30 in both sexes. JH is characterised by hypogonadism, growth retardation and cardiomyopathy. Linkage of JH to chromosome lq is established in pedigrees throughout Europe. Studies of 29 patients in 20 families of diverse ethnic origin confirm early-onset iron overload. Neonatal hemochromatosis (NH) is a syndrome of unknown origin characterized by congenital cirrhosis or fulminant hepatitis with hepatic and extra-hepatic iron deposits. We assessed 40 infants from 27 families and identified 3 patterns of disease transmission. In 12 of the 27 there was >1 affected infant and in 5 families all infants were affected by NH. In 19 families unaffected children were also born. In 4 families there was bacterial or viral maternal infection associated with NH. In two families, antibodies to DNA or ribonuclear proteins were identified. In 12 families, unaffected children were born to the same parents in the absence of maternal antibodies or infection and without indications of maternal transmission. Consanguinity was observed in 1 family with 4 affected offspring (1 stillbirth + 3 neonatal deaths). Sequence analysis of HFE, beta2M, and both human heme oxygenase genes failed to identify any causal mutations in nuclear NH families but our study points to the existence of a cohort of patients likely to suffer from an autosomal recessive trait. A genome wide scanning study is underway to identify the putative locus.
Blood Cells
Mol
Dis
PMID:Hemochromatosis--neonatal and young subjects. 1254 31
Hemochromatosis is a heterogeneous genetic disease.
Juvenile hemochromatosis
is a severe rare recessive autosomal disease. Herein, we report a consanguineous family linked to a mutation in the recently identified HJV gene. A refractory cardiogenic shock had revealed hemochromatosis in the proband, a 26-year-old woman, and led to the death by heart failure. Regular phlebotomies in her young sister, which was also affected, had allowed to prevent the severe complications of the disease. These two affected subjects presented an identical homozygous haplotype at the 1q21 chromosome region and a missense homozygous mutation at the HJV gene (Arg288 > Trp). This observation underlines the importance of HJV genetic testing, by complete screening of the gene, in young patients with abnormal iron parameters and hypogonadism and/or cardiac symptoms to prevent death from cardiac complications.
Blood Cells
Mol
Dis
PMID:Juvenile hemochromatosis HJV-related revealed by cardiogenic shock. 1531 89
The precise regulation of the iron-regulatory hormone hepcidin is essential to maintain body iron homeostasis: Hepcidin deficiency induces iron overload, and hepcidin excess results in anaemia. Mutations in the gene
HFE2
cause severe iron overload and are associated with low hepcidin expression. Recent data suggest that
HFE2
is a bone morphogenetic protein (BMP) co-receptor, and that the decreased hepcidin mRNA expression because of
HFE2
dysfunction is a result of impaired BMP signalling ability. In this study, we identify a critical BMP-responsive element (BMP-RE) at position -84/-79 of the hepcidin promoter. We show that this element mediates
HFE2
-dependent basal hepcidin mRNA expression under control conditions. Unexpectedly, the mutation of the same BMP-RE element also severely impairs hepcidin activation in response to IL-6. These data uncover a missing link in the
HFE2
-mediated control of hepcidin expression and suggest that the BMP-RE controls hepcidin promoter activity mediated by
HFE2
and inflammatory stimuli.
J
Mol
Med (Berl) 2008 May
PMID:A bone morphogenetic protein (BMP)-responsive element in the hepcidin promoter controls HFE2-mediated hepatic hepcidin expression and its response to IL-6 in cultured cells. 1842 30
The hemochromatosis proteins HFE, transferrin receptor 2 (TfR2) and hemojuvelin (HJV,
HFE2
) positively control expression of the major iron regulatory hormone hepcidin. HJV is a bone morphogenetic protein (BMP) co-receptor that enhances the cellular response to BMP cytokines via the phosphorylation of SMAD proteins. In this study, we show that two highly conserved and sequence-identical BMP-responsive elements located at positions -84/-79 (BMP-RE1) and -2,255/-2,250 (BMP-RE2) of the human hepcidin promoter are critical for both the basal hepcidin mRNA expression and the hepcidin response to BMP-2 and BMP-6. While BMP-RE1 and BMP-RE2 show additive effects in responding to HJV-mediated BMP signals, only BMP-RE1 that is located in close proximity to a previously identified STAT-binding site is important for the hepcidin response to IL-6. These data identify a missing link between the HJV/BMP signaling pathways and hepcidin transcription, and further define the connection between inflammation and BMP-dependent hepcidin promoter activation. As such, they provide important new information furthering our understanding of disorders of iron metabolism and the anemia of inflammation.
J
Mol
Med (Berl) 2009 May
PMID:Bone morphogenetic protein (BMP)-responsive elements located in the proximal and distal hepcidin promoter are critical for its response to HJV/BMP/SMAD. 1923 43
Iron-loading disorders (haemochromatosis) represent an important class of human diseases. Primary iron loading results from inherited disturbances in the mechanisms regulating intestinal iron absorption, such that excess iron is taken up from the diet. Body iron load can also be increased by repeated blood transfusions (secondary iron loading), usually as part of the treatment for various haematological disorders. In these syndromes, an element of enhanced iron absorption is also often involved. The central regulator of body iron trafficking is the liver-derived peptide hepcidin. Hepcidin limits iron entry into the plasma from macrophages, intestinal enterocytes and other cells by binding to the sole iron-export protein ferroportin, and facilitating its removal from the plasma membrane. Mutations in hepcidin or its upstream regulators (HFE, TFR2,
HFE2
and BMP6) lead to reduced or absent hepcidin expression and a concomitant increase in iron absorption. Mutations in ferroportin that prevent hepcidin binding produce a similar result. Increased ineffective erythropoiesis, which often characterises erythrocyte disorders, also leads to reduced hepcidin expression and increased absorption. Recent advances in our understanding of hepcidin and body iron homeostasis provide the potential for a range of new diagnostic and therapeutic tools for haemochromatosis and related conditions.
Expert Rev
Mol
Med 2010 Nov 08
PMID:Molecular basis of iron-loading disorders. 2105 16
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