Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0162316 (iron deficiency anemia)
3,806 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hookworm infection is a major cause of gastrointestinal blood loss and iron deficiency anemia in the developing world. Recently two major anticoagulant serine protease inhibitors have been identified and cloned from adult Ancylostoma caninum hookworms. One of these, A. caninum anticoagulant peptide 5 (AcAP5), is a potent and specific inhibitor of human coagulation factor Xa. A polyclonal IgG has been purified from rabbits immunized with recombinant AcAP5 using affinity chromatography. Using immunohistochemistry, the polyclonal alpha-rAcAP5 IgG localized to the cephalic or amphidial glands, confirming previous biochemical studies that had identified this secretory gland as the primary source of anticoagulant activity in the adult worm. This polyclonal IgG also neutralized the inhibitory activity of recombinant and native AcAP using a single stage chromogenic assay of coagulation factor Xa activity. In addition, the polyclonal IgG also neutralized the anticoagulant activity of native and recombinant AcAP5 as measured by the activated partial thromboplastin time clotting assay. Importantly, this neutralizing activity is species specific, as the polyclonal IgG failed to neutralize the anticoagulant activity of A. ceylanicum. Taken together, these data suggest that the hookworm anticoagulant AcAP5 represents a viable target for future immunization strategies aimed at inhibiting the ability of the adult hookworm to feed on blood in vivo.
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PMID:Ancylostoma caninum anticoagulant peptide-5: immunolocalization and in vitro neutralization of a major hookworm anti-thrombotic. 1137 44

Iron deficiency is usually attributed to chronic blood loss or inadequate dietary intake. Here, we show that iron deficiency anemia refractory to oral iron therapy can be caused by germline mutations in TMPRSS6, which encodes a type II transmembrane serine protease produced by the liver that regulates the expression of the systemic iron regulatory hormone hepcidin. These findings demonstrate that TMPRSS6 is essential for normal systemic iron homeostasis in humans.
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PMID:Mutations in TMPRSS6 cause iron-refractory iron deficiency anemia (IRIDA). 1840 18

Genetic causes of hypochromic microcytic anemia include thalassemias and some rare inherited diseases such as DMT1 deficiency. Here, we show that iron deficiency anemia with poor intestinal absorption and defective iron utilization of IV iron is caused by inherited mutations in TMPRSS6, a liver-expressed gene that encodes a membrane-bound serine protease of previously unknown role that was recently reported to be a regulator of hepcidin expression.
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PMID:Two nonsense mutations in the TMPRSS6 gene in a patient with microcytic anemia and iron deficiency. 1859 29

Matriptase-2 is a transmembrane serine protease that negatively regulates hepcidin expression by cleaving membrane-bound hemojuvelin. Matriptase-2 has a complex ectodomain, including a C-terminal serine protease domain and its activation requires an autocatalytic cleavage. Matriptase-2 mutations have been reported in several patients with iron-refractory iron deficiency anemia. Here we describe a patient with 2 missense mutations in the second class A low-density lipoprotein receptor (LDLRA) domain. Functional studies of these 2 mutations and of a previously reported mutation in the second C1r/C1s, urchin embryonic growth factor and bone morphogenetic protein 1 (CUB) domain were performed. Transfection of mutant cDNAs showed that membrane targeting of the 2 LDLRA mutants was impaired, with Golgi retention of the variants. The activating cleavage was absent for the LDLRA mutants and reduced for the CUB mutant. All 3 mutated proteins were still able to physically interact with hemojuvelin but only partially repressed hepcidin expression compared with wild-type matriptase-2. Our results underline the importance of LDLRA and CUB domains of matriptase-2.
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PMID:Molecular mechanisms of the defective hepcidin inhibition in TMPRSS6 mutations associated with iron-refractory iron deficiency anemia. 1935 98

Maintaining the body's levels of iron within precise boundaries is essential for normal physiological function. Alterations of these levels below or above the healthy limit lead to a systemic deficiency or overload in iron. The type-two transmembrane serine protease (TTSP), matriptase-2 (also known as TMPRSS6), is attracting significant amounts of interest due to its recently described role in iron homeostasis. The finding of this regulatory role for matriptase-2 was originally derived from the observation that mice deficient in this protease present with anemia due to elevated levels of hepcidin and impaired intestinal iron absorption. Further in vitro analysis has demonstrated that matriptase-2 functions to suppress bone morphogenetic protein stimulation of hepcidin transcription through cell surface proteolytic processing of the bone morphogenetic protein co-receptor hemojuvelin. Consistently, the anemic phenotype of matriptase-2 knockout mice is mirrored in humans with matripase-2 mutations. Currently, 14 patients with iron-refractory iron deficiency anemia (IRIDA) have been reported to harbor various genetic mutations that abrogate matriptase-2 proteolytic activity. In this review, after overviewing the membrane anchored serine proteases, in particular the TTSP family, we summarize the identification and characterization of matriptase-2 and describe its functional relevance in iron metabolism.
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PMID:Matriptase-2 (TMPRSS6): a proteolytic regulator of iron homeostasis. 1937 77

Matriptase-2 (Tmprss6), a type II transmembrane serine protease, has an essential role in iron homoeostasis as a hepcidin regulator. Recently, patients with TMPRSS6 mutations and suffering from iron-refractory iron deficiency anaemia (IRIDA) have been reported. We describe two new cases of IRIDA, one patient of Swiss origin and the second of Italian origin. The first case results from a large deletion of 1054 nucleotides corresponding to an in frame deletion of 30 amino acid residues in the low-density lipoprotein receptor-1/-2 (LDLR-1/-2) domains and from a missense mutation in CUB1 (S304L). In the second case, a homozygous G-->C mutation in the last nucleotide of exon 15 and which modified the consensus sequence of the 5' splice donor site of intron 15 (AGgt-->ACgt) was identified. Both patients had a high hepcidin level and low serum iron and transferrin saturation compared to age-matched controls. Continuous perfusion of i.v. iron 4 h/d x 5 d in the first case resulted in a significant rise in haemoglobin. These new cases of IRIDA illustrate the importance of LDLR-1/-2 and CUB1 domains in matriptase-2 function as well as the role of matriptase-2 in hepcidin regulation. Furthermore a deletional form of TMPRSS6 (in LDLR-1/-2 domains) resulting in IRIDA is described for the first time. These cases reinforce the belief that patients suffering from IRIDA have no specific geographical or ethnic distribution and are sporadic secondary to different mutations of the matriptase-2 gene.
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PMID:Haematologic data, iron parameters and molecular findings in two new cases of iron-refractory iron deficiency anaemia. 1970 71

Iron deficiency anemia is a common complication in end-stage renal disease (ESRD) and impairs the therapeutic efficacy of recombinant erythropoietin. Oral or parental iron supplements usually are effective in treating iron deficiency anemia. Some patients, however, respond poorly to iron supplements and are diagnosed as having iron-refractory iron deficiency anemia. The condition exacerbates ESRD but its underlying mechanism was unclear. Hepcidin is a central player in iron homeostasis. It downregulates the iron exporter ferroportin, thereby inhibiting iron absorption, release, and recycling. In ESRD, plasma hepcidin levels are elevated, which contributes to iron deficiency in patients. Matriptase-2, a liver transmembrane serine protease, has been found to have a major role in controlling hepcidin gene expression. In mice, defects in the Tmprss6 gene encoding matriptase-2 result in high hepcidin expression and cause severe microcytic anemia. Similarly, mutations in the human TMPRSS6 gene have been identified in patients with iron-refractory iron deficiency. Thus, matriptase-2 is critical for iron homeostasis and may have an important role in ESRD.
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PMID:Iron-refractory iron deficiency anemia: new molecular mechanisms. 1977 21

Iron-refractory iron deficiency anemia (IRIDA) is an autosomal recessive disorder characterized by iron deficiency anemia unresponsive to oral iron treatment but partially responsive to parenteral iron therapy. IRIDA has recently been shown to be caused by mutations in the gene TMPRSS6, which encodes a transmembrane serine protease (also known as matriptase-2) expressed by the liver. IRIDA patients show inappropriately elevated levels of hepcidin, a circulating hormone produced by the liver that inhibits both iron absorption from the intestine and iron release from macrophage stores. Recent studies suggest that TMPRSS6 normally acts to downregulate hepcidin expression by cleaving hemojuvelin, a membrane-bound protein that promotes hepcidin signaling in hepatocytes. A discussion of the clinical presentation of IRIDA, the molecular genetics of this disorder, and recent studies elucidating the underlying pathophysiology are presented.
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PMID:Iron-refractory iron deficiency anemia. 1978 6

Iron-refractory, iron-deficiency anemia (IRIDA) is a familial disorder characterized by iron deficiency anemia unresponsive to oral iron treatment but partially responsive to intravenous iron therapy. Previously, we showed that IRIDA patients harbor loss-of-function mutations in TMPRSS6, a type II transmembrane serine protease primarily expressed by the liver. Both humans and mice with TMPRSS6 mutations show inappropriately elevated levels of the iron-regulatory hormone hepcidin, suggesting that TMPRSS6 acts to negatively regulate hepcidin expression. Here we investigate the relationship between Tmprss6 and the bone morphogenetic protein (BMP)-Smad signaling pathway, a key pathway promoting hepcidin transcription in hepatocytes. We show that livers from mice deficient for Tmprss6 have decreased iron stores and decreased Bmp6 mRNA, but markedly increased mRNA for Id1, a target gene of Bmp6 signaling. In contrast, mice deficient for both Tmprss6 and hemojuvelin (Hjv), a BMP coreceptor that augments hepcidin expression in hepatocytes, showed markedly decreased hepatic levels of hepcidin and Id1 mRNA, markedly increased hepatic Bmp6 mRNA levels, and systemic iron overload similar to mice deficient for Hjv alone. These findings suggest that down-regulation of Bmp/Smad signaling by Tmprss6 is required for regulation of hepcidin expression and maintenance of systemic iron homeostasis.
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PMID:Down-regulation of Bmp/Smad signaling by Tmprss6 is required for maintenance of systemic iron homeostasis. 2068 66

The hereditary hemochromatosis protein HFE promotes the expression of hepcidin, a circulating hormone produced by the liver that inhibits dietary iron absorption and macrophage iron release. HFE mutations are associated with impaired hepatic bone morphogenetic protein (BMP)/SMAD signaling for hepcidin production. TMPRSS6, a transmembrane serine protease mutated in iron-refractory iron deficiency anemia, inhibits hepcidin expression by dampening BMP/SMAD signaling. In the present study, we used genetic approaches in mice to examine the relationship between Hfe and Tmprss6 in the regulation of systemic iron homeostasis. Heterozygous loss of Tmprss6 in Hfe(-/-) mice reduced systemic iron overload, whereas homozygous loss caused systemic iron deficiency and elevated hepatic expression of hepcidin and other Bmp/Smad target genes. In contrast, neither genetic loss of Hfe nor hepatic Hfe overexpression modulated the hepcidin elevation and systemic iron deficiency of Tmprss6(-/-) mice. These results indicate that genetic loss of Tmprss6 increases Bmp/Smad signaling in an Hfe-independent manner that can restore Bmp/Smad signaling in Hfe(-/-) mice. Furthermore, these results suggest that natural genetic variation in the human ortholog TMPRSS6 might modify the clinical penetrance of HFE-associated hereditary hemochromatosis, raising the possibility that pharmacologic inhibition of TMPRSS6 could attenuate iron loading in this disorder.
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PMID:Tmprss6 is a genetic modifier of the Hfe-hemochromatosis phenotype in mice. 2135 94


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