EC:1.16.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.16.3.1 (ceruloplasmin)
5,074 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Evaluation of chronic liver disease begins with a carefully taken history, thorough physical examination, and standard laboratory tests. Often, however, other studies are required, such as a viral hepatitis panel, serologic tests for autoimmune markers, tests for antimitochondrial antibodies, measurement of serum iron and ceruloplasmin levels, liver biopsy, and imaging studies of the extra-hepatic bile ducts. Medical treatment of chronic active hepatitis, primary biliary cirrhosis, and primary sclerosing cholangitis remains unsatisfactory. Early treatment of hemochromatosis and Wilson's disease can prevent cirrhosis and liver failure. Liver transplantation is now a viable procedure for patients with end-stage chronic liver disease.
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PMID:Chronic liver disease. The scope of causes and treatments. 158 71

We describe a patient who had severe neurologic symptoms, psychiatric abnormalities, and secondary amenorrhea superimposed on a history of hemolytic anemia and micronodular cirrhosis attributed to hemochromatosis. The correct diagnosis of Wilson's disease was delayed until the appearance of Kayser-Fleischer rings and a low serum ceruloplasmin level. Appropriate treatment ameliorated symptoms, and maintenance therapy has been effective in retarding progression. It is essential to consider Wilson's disease in patients with unexplained hepatic, neurologic, and psychiatric dysfunction, because appropriate early medical treatment can prevent further organ damage and reduce the risk of permanent damage to the liver and brain.
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PMID:Wilson's disease. 916 75

End-stage liver disease secondary to cryptogenic cirrhosis is the indication for orthotopic liver transplantation (OLT) in 7% to 14% of recipients. However, there are no reports documenting the outcome of OLT for this indication. The aim of this study was to determine (1) survival and (2) the incidence of histological recurrence of cryptogenic cirrhosis after OLT. Between March 1985 and December 1994, 560 OLTs were performed at our institution. Of these, 39 transplants for cryptogenic cirrhosis were in patients who met the following criteria: antinuclear antibody < 1:40; negative anti-smooth muscle antibody, antimitochondrial antibody, polymerase chain reaction for hepatitis C virus, and hepatitis B surface antigen results; normal ceruloplasmin and alpha-1 antitrypsin phenotype; transferrin saturation < 65%; and liver biopsy specimen not suggestive of hemochromatosis or other known disorders. Histological recurrence was assessed with protocol liver biopsies in all patients who survived longer than 6 months. The mean age of cryptogenic recipients at the time of transplantation was significantly lower (40.6 years; range, 3 to 63 years) than that of noncryptogenic recipients (48.5 years; range, 1-70; P < .03). Median modified Child's-Pugh score was slightly higher for cryptogenic recipients at the time of transplantation (10.0 + 0.08 standard error of mean [SEM]), than for the noncryptogenic recipients (9.0 + 0.03 SEM; P < .02). Actuarial survival was 72% (+ 0.07 SEM) at 1 and 58% (+ 0.08 SEM) at 5 years for cryptogenic recipients compared with 89% at 1 and 80% at 5 years for noncryptogenic recipients. The difference in survival was significant (P < .001) at both 1 and 5 years. Among the 27 cryptogenic recipients surviving more than 6 months (mean follow-up, 5.5 years), 6 have persistent hepatitis histologically without apparent infectious, vascular, biliary, or drug origins. Four patients (15%) had chronic active hepatitis, and 2 (7%) had steatohepatitis. No cases of recurrent cryptogenic cirrhosis were seen. OLT for cryptogenic cirrhosis is associated with a poor outcome compared with other indications, hepatitis of uncertain origin occurred in 22% of cryptogenic recipients surviving longer than 6 months, and no evidence of recurrence of cryptogenic cirrhosis was seen thus far in follow-up.
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PMID:Liver transplantation for cryptogenic cirrhosis. 934 64

Diverse clinical disorders distinct from hereditary hemochromatosis are associated with accumulation of excess body iron in heterogeneous patterns and through various mechanisms. A deranged iron turnover somehow relates to the altered physiological barrier for iron absorption in several defined chronic anemias with ineffective erythropoiesis. Unexcretable excess iron acquired from transfusions provides a therapeutic challenge. Genetic defects of proteins essential for transport of iron into and out of cells (transferrin and ceruloplasmin) deprive the erythron of the metal and cause its accumulation in other vital organs. The hemochromatosis alleles predictably contribute to an iron burden from other causes, commonly facilitate the expression of porphyria cutanea tarda, and their clinical expression may be accelerated by hereditary hemolytic anemias. Even minimal iron excess in liver disease may contribute to the hepatocellular injury from factors such as alcohol and viruses. Uniquely localized siderosis occurs in the lung and kidney where iron cannot turn over and causes variable tissue damage. The most devastating iron overload disorder, neonatal hemochromatosis, is understood least of all.
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PMID:Secondary iron overload disorders. 946 Aug 11

A 59-year-old patient progressively developed dementia, hallucinations and facial dyskinesia. Brain T and T2-weighted MRI images showed low signal intensity on basal ganglia specially striatum, posterior thalamic and dentate nuclei. He had no evidence of ceruloplasmin and a high level of ferritin in the serum. Liver biopsy confirmed accumulation of iron in the cytoplasm of many hepatocytes. Similar clinical and biological signs were also observed in two brothers. All the three siblings were homozygous for a hereditary ceruloplasmin deficiency. This new clinico-pathological entity, first described in 1987, is different from Wilson's disease, Hallervorden-Spatz's disease and idiopathic hemochromatosis and linked to a mutation of the ceruloplasmin gene located on chromosome 3.
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PMID:[Cerebral hemosiderosis related to hereditary ceruloplasmin deficiency. Clinical familial case study]. 977 37

Iron is required for cellular life. However, abnormalities of its metabolism may lead to iron deficiency or iron overload, both conditions which are deleterious. Therefore, stock and distribution of iron in the body must be very stable. Classically, four major proteins are involved in iron metabolism: (a) transferrin which is implicated in its plasmatic transport, (b) transferrin receptor which regulates iron-transferrin uptake, (c) ferritin, the major iron storage protein, and (d) IRP (Iron Regulatory Protein) which regulates both the entry and storage of iron by linking to the IRE (Iron Responsive Element), a nucleotidic sequence found on transferrin receptor and ferritin mRNA. Thus, IRP adapts gene expression to the iron cellular status. Recent data give informations about new proteins involved in iron metabolism: HFE whose gene is mutated in genetic hemochromatosis, ceruloplasmin which permits cellular iron egress and frataxin which is implicated in the exit of iron from mitochondria.
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PMID:[Current data on iron metabolism]. 1052 Apr 10

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.
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PMID:Haemochromatosis: novel gene discovery and the molecular pathophysiology of iron metabolism. 1100 92

With rare exceptions, virtually all studied organisms from Archaea to man are dependent on iron for survival. Despite the ubiquitous distribution and abundance of iron in the biosphere, iron-dependent life must contend with the paradoxical hazards of iron deficiency and iron overload, each with its serious or fatal consequences. Homeostatic mechanisms regulating the absorption, transport, storage and mobilization of cellular iron are therefore of critical importance in iron metabolism, and a rich biology and chemistry underlie all of these mechanisms. A coherent understanding of that biology and chemistry is now rapidly emerging. In this review we will emphasize discoveries of the past decade, which have brought a revolution to the understanding of the molecular events in iron metabolism. Of central importance has been the discovery of new proteins carrying out functions previously suspected but not understood or, more interestingly, unsuspected and surprising. Parallel discoveries have delineated regulatory mechanisms controlling the expression of proteins long known--the transferrin receptor and ferritin--as well as proteins new to the scene of iron metabolism and its homeostatic control. These proteins include the iron regulatory proteins (IRPs 1 and 2), a variety of ferrireductases in yeast an mammalian cells, membrane transporters (DMT1 and ferroportin 1), a multicopper ferroxidase involved in iron export from cells (hephaestin), and regulators of mitochondrial iron balance (frataxin and MFT). Experimental models, making use of organisms from yeast through the zebrafish to rodents have asserted their power in elucidating normal iron metabolism, as well as its genetic disorders and their underlying molecular defects. Iron absorption, previously poorly understood, is now a fruitful subject for research and well on its way to detailed elucidation. The long-sought hemochromatosis gene has been found, and active research is underway to determine how its aberrant functioning results in disease that is easily controlled but lethal when untreated. A surprising connection between iron metabolism and Friedreich's ataxia has been uncovered. It is no exaggeration to say that the new understanding of iron metabolism in health and disease has been explosive, and that what is past is likely to be prologue to what is ahead.
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PMID:Chemistry and biology of eukaryotic iron metabolism. 1147 Feb 29

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.
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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

Evidence is accumulating that hepcidin, a liver regulatory peptide, could be the common pathogenetic denominator of all forms of iron overload syndromes including HFE-related hemochromatosis, the most prevalent genetic disorder characterized by inappropriate iron absorption. To understand the mechanisms whereby hepcidin controls iron homeostasis in vivo, we have analyzed the level of iron-related proteins by Western blot and immunohistochemistry in hepcidin-deficient mice, a mouse model of severe hemochromatosis. These mice showed important increased levels of duodenal cytochrome b (Dcytb), divalent metal transporter 1 (DMT1), and ferroportin compared with control mice. Interestingly, the level of ferroportin was coordinately up-regulated in the duodenum, the spleen, and the liver (predominantly in the Kupffer cells). Finally, we also evidenced a decrease of ceruloplasmin in the liver of hepcidin-deficient mice. We hypothesized that the deregulation of these proteins might be central in the pathogenesis of iron overload, providing key therapeutic targets for iron disorders.
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PMID:Deregulation of proteins involved in iron metabolism in hepcidin-deficient mice. 1571 92

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