UNIPROT:P02794 - FACTA Search

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

Hemochromatosis was recognized as an iron-storage disease for 50 years before it was proposed to treat it by removing hemoglobin. Davis and Arrowsmith are credited with the first report that demonstrated its value. Larger series have provided statistically valid evidence of improved quality of life and increased longevity. The earlier the disease is discovered, the less risk of morbidity and mortality. Screening tests (serum iron, total iron-binding capacity, serum ferritin) are recommended for all blood relatives of index cases of this hereditary disease and for all clinics where complications of hemochromatosis may be treated: liver disorder however mild, diabetes mellitus, heart disease, arthropathies, sterility, impotence, premature menopause, and abnormal pigmentation of the skin.
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PMID:A history of phlebotomy therapy for hemochromatosis. 199 28

A 32-year-old male presented with palpitations and an elevated serum iron. Further evaluation revealed elevated serum ferritin, and a liver biopsy confirmed the diagnosis of hemochromatosis. Cardiovascular workup was normal except for sinus bradycardia alternating with sinus tachycardia in the 24-hour Holter study. Treatment with weekly phlebotomies was started and the family is being studied for early diagnosis of any other case of hemochromatosis. The manifestations, diagnostic workup, and the importance of early diagnosis of hemochromatosis is stressed.
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PMID:Idiopathic hemochromatosis in a young man presenting with palpitations. 203 74

To measure the effect of testosterone replacement and venesection on spinal and peripheral bone mineral we prospectively studied six hypogonadal men and six eugonadal men with idiopathic hemochromatosis for 24 months. Venesections were performed every week on all patients, and intramuscular injections of testosterone were administered every 3 weeks to the hypogonadal men only. Bone mineral was measured by quantitative computed tomography in the spine and by single-photon absorptiometry in the forearm. During the 24 month period of observation serum testosterone concentrations and serum ferritin levels became normal. In the hypogonadal men mean lumbar spine bone mineral increased by 13.1 +/- 4.9% (95% CI, 0.5-25.6) and mean forearm bone mineral increased by 4.7 +/- 3.8% (95% CI, -5.1 to 14.6). In contrast in the eugonadal men treated over the same period, mean lumbar spine bone mineral decreased by 3.5 +/- 2.8% (95% CI, -10.9 to 3.8, P less than 0.01) and mean forearm bone mineral remained virtually unchanged (0.07 +/- 0.9%; 95% CI, -1.7 to 3.1, P less than 0.05). These data suggest that bone mineral increases in the lumbar spine and in the forearm in hypogonadal men with hemochromatosis treated by testosterone replacement and venesection.
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PMID:Effects of testosterone and venesection on spinal and peripheral bone mineral in six hypogonadal men with hemochromatosis. 204 30

To determine the frequency of liver profile abnormalities in hereditary hemochromatosis, we under took a retrospective survey in 100 patients, all of whom had undergone liver biopsy. Liver histology was compared with the biochemical profile, which included aspartate aminotransferase (AST), alanine aminotransferase (ALT), alkaline phosphatase, bilirubin and albumin determinations. Mild abnormalities in the AST and ALT levels were seen in more than 65% of patients. Patients with cirrhosis had significantly greater elevations in AST, ALT, and alkaline phosphatase, and a significant decrease in albumin (p less than 0.05). Proband cases had more frequent abnormalities than discovered cases within families. Accordingly, we find that mild abnormalities in the biochemical liver profile are common in hemochromatosis and suggest that patients with an unexplained abnormality in the liver profile should be screened for hemochromatosis with a serum ferritin and transferrin saturation.
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PMID:Biochemical liver profile in hemochromatosis. A survey of 100 patients. 206 47

In genetic hemochromatosis, metabolic studies have demonstrated inappropriately increased iron absorption by cells of the duodenal mucosa. It is not clear whether this reflects an intrinsic abnormality of iron homeostasis at this site or is a consequence of a more generalized defect in cellular iron metabolism particularly involving the liver. We have previously used the expression of iron-related proteins as markers of iron homeostasis and have demonstrated normal regulation of the transferrin receptor and ferritin in the liver in this condition. In the present study we used immunohistochemical techniques to study transferrin-receptor expression in the gastrointestinal epithelium in normal subjects and patients with iron overload. In untreated genetic hemochromatosis and normal subjects, villus epithelial cells expressed receptor in the basolateral, subnuclear region. In contrast, in patients with secondary iron overload, receptor staining was absent in villus epithelial cells. The cells in the duodenal crypts showed intense staining for the transferrin receptor in all subjects investigated, a finding consistent with the known behavior of this receptor in proliferating cells. Given that body iron stores in both types of iron overload were comparable, these findings indicating a failure of down-regulation of the villus enterocyte transferrin receptor in genetic hemochromatosis may reflect the presence of a regulatory defect associated with the inability to control iron absorption in this condition.
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PMID:Differential expression of transferrin receptor in duodenal mucosa in iron overload. Evidence for a site-specific defect in genetic hemochromatosis. 217 37

The morphologic aspects of iron overload have been studied in human subjects, mammals, and birds with spontaneous overload, in a variety of experimental animals, and also in cell cultures. Reviewed here are the contributions of electron microscopy to the understanding of the iron-loading process, as reported during the last 12 years. The electron-density of ferrihydrite cores located within the protein shell of the ferritin molecule enabled its identification within either cytosol or lysosomes (siderosomes) of iron-exposed cells. The process of (holo)ferritin assembly, its transfer into siderosomes, and its degradation to hemosiderin can be followed in various cells. Siderosomes display cell-line-specific ultrastructural features, and different cell types show varying iron-segregating capacity. The study of experimental animals and cultured cells show that an iron-rich milieu may be damaging, probably through iron-catalyzed lipid peroxidation. Recent ultrastructural studies stress the value of describing initial alterations as opposed to the irrelevant end-stage findings. Further efforts should be directed toward elucidating the origin of iron in neonatal hemochromatosis, the role of iron in infection and neoplasia, and the nature and role of brain iron.
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PMID:Biological and ultrastructural aspects of iron overload: an overview. 217 20

Diabetes mellitus is found with increased frequency in patients with both primary and secondary hemochromatosis. In these conditions, the pancreas shows fibrosis and iron overload of acini, interstitium, and islet B cells. Previous morphological studies have only described changes found in advanced stages of disease, while abnormalities of the initial stage of iron overload have, as yet, not been reported. Rats fed a carbonyl iron-supplemented diet for 4-15 months showed storage iron deposition (ferritin and hemosiderin) in many organs, in a pattern similar to primary human hemochromatosis. Electron microscopic examination of the pancreas showed ferritin particles segregated in lysosomes of acinar cells, as well as diffuse cytosiderosis of macrophages in the interstitial septa. In the islets, iron deposits were discrete and only in B cells. In the absence of electron-microscopic studies of incipient pancreatic cytosiderosis in human subjects, the present experimental animal study may contribute to a better understanding of the pathway leading to the extensive lesions found in the advanced stages of the human iron overloading diseases.
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PMID:Ultrastructural changes in the pancreas of carbonyl iron-fed rats. 218 17

Hemochromatosis is an autosomal recessive genetic disorder that occurs with high prevalence in populations of European origin. The gene that is abnormal in hemochromatosis is found on the short arm of chromosome 6 in close proximity (approximately 1 centimorgan) to HLA-A, but the product coded for by that gene is unknown. The pathogenetic mechanism in hemochromatosis is that of continued, excessive absorption of dietary iron with loss of normal control mechanisms, leading to a gradual but vast expansion of storage iron as ferritin and especially as hemosiderin. Through mechanisms that probably include peroxidation of lipid membranes, the excess iron injures hepatocytes, islet B cells, gonadotropes in the anterior pituitary, myocardium, synovial cells, and chondrocytes, and probably other cells and tissues as well. Most patients with hemochromatosis remain undiagnosed throughout life. Removal of the excess iron by phlebotomy will prevent all of the complications of hemochromatosis when begun early and will significantly improve survival in virtually all patients. It is important, therefore, that the diagnosis of hemochromatosis be considered much more frequently in clinical medicine in order that this effective therapy be utilized.
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PMID:Overview of hemochromatosis. 221 95

We have found by analyses of human-hamster hybrid cells that two human ferritin H genes lie near the locus of the iron storage disease idiopathic hemochromatosis on chromosome 6p. One of these genes was isolated and shown to be a processed pseudogene. Comparison of its sequence with those of other ferritin H pseudogenes indicates that they may be derived from a functional H gene other than that on chromosome 11.
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PMID:Identification of two human ferritin H genes on the short arm of chromosome 6. 230 64

The diagnostic efficacy of hepatic computed tomography density (HCTD) in comparison with serum ferritin for the detection of iron overload was investigated in uremic patients on maintenance hemodialysis (HD) and in patients with idiopathic hemochromatosis (IHC). Ten IHC patients, 38 HD patients and 40 healthy subjects underwent the CT scanning of the liver and determination of percent saturation of transferrin, serum ferritin concentration and HLA typing. Liver iron content was determined by histochemical grading and direct measurement of liver iron concentration either in IHC patients or in HD patients. Nineteen HD patients were considered to have iron overload on the basis of liver iron concentration exceeding 3.6 mumol/100 mg dry weight. The mean +/- SD values of HCTD in healthy subjects, IHC patients, HD patients with iron overload and without iron overload were 60.2 +/- 5.6, 79 +/- 5.6, 71.4 +/- 3.6, 58 +/- 3.8 Hounsfield units, respectively. HCTD showed positive correlations with liver iron concentration and serum ferritin either in IHC patients or in HD patients. The analysis of the diagnostic efficacy of HCTD in comparison with serum ferritin for the detection of excessive hepatic iron in HD patients demonstrated that HCTD had higher sensitivity, specificity, positive and negative predictive values. Cut-off points were arbitrarily fixed to 66 Hounsfield units for HCTD, 400 micrograms/liter for serum ferritin and 3.6 mumol/100 mg dry weight for liver iron concentration. Seventeen HD patients who possessed the histocompatibility antigens associated with IHC, namely HLA-A3 and/or HLA-B7 and/or HLA-B14, had liver iron concentration, serum ferritin and HCTD values higher than those of the HD patients without these "hemochromatosis alleles".(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Efficacy of hepatic computed tomography to detect iron overload in chronic hemodialysis. 231 82

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