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

A possible association between body iron stores, measured as serum ferritin, and carotid arterial intima-media thickening was investigated in the Atherosclerosis Risk in Communities Study during 1990-1992 using a matched case-control design. For a 143-micrograms/liter greater serum ferritin concentration (the interquartile range), the odds ratio for cases with carotid intima-media thickening versus controls was 1.12 (95% confidence interval 0.97-1.30). However, there was no association (odds ratio = 1.00) after adjusting for major cardiovascular risk factors. This analysis of carotid arterial intima-media thickening, a measure of early atherosclerosis, in relation to serum ferritin does not support the hypothesis that increased body iron stores increase the risk of atherosclerotic cardiovascular disease.
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PMID:No association between serum ferritin and asymptomatic carotid atherosclerosis. The Atherosclerosis Risk in Communities (ARIC) Study. 863 12

Iron-derived reactive oxygen species play an important role in the pathogenesis of various vascular disorders including vasculitis, atherosclerosis, and capillary leak syndromes such as the adult respiratory distress syndrome (ARDS). We have suggested that acute incorporation of the heme moiety of hemoglobin released from red blood cells into endothelium could provide catalytically active iron to the vasculature. Adaptation to chronic heme stress involves the induction of heme oxygenase and ferritin; the latter provides cytoprotection against free radicals in vitro. The present studies examine the bioavailability of heme, derived from hemoglobin, to induce heme oxygenase and ferritin in rat lungs in vivo. Intravenous injection of methemoglobin, but not oxyhemoglobin, increases total lung heme oxygenase mRNA approximately fivefold after 16 h. Accompanying this mRNA induction, expression of total lung heme oxygenase enzyme activity is also markedly enhanced. In situ hybridization for heme oxygenase reveals mRNA accumulation in the lung microvascular endothelium, implying incorporation of heme into endothelial cells. Similarly, methemoglobin significantly increases the ferritin protein content of rat lungs and in parallel, ferritin light-chain mRNA increases approximately 1.6-fold, whereas heavy-chain mRNA is upregulated by approximately 1.9-fold. Immunoreactive ferritin is present in lung microvascular endothelium after methemoglobin treatment, suggesting incorporation of heme iron into pulmonary vasculature. Subcutaneous injection of Sn-protoporphyrin IX, a competitive inhibitor of heme oxygenase, does not affect methemoglobin-induced ferritin synthesis in lungs. We speculate that methemoglobin, which might be generated by activated leukocytes in ARDS associated with disseminated interavascular coagulation, can provide heme iron to lung microvascular endothelium to induce heme oxygenase and ferritin.
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PMID:Endothelial cell heme oxygenase and ferritin induction in rat lung by hemoglobin in vivo. 786 52

We hypothesized that the formation of foam cells and fatty streaks requires a postsecretory oxidative modification of lipoproteins that targets them for rapid uptake by macrophages. Lipid peroxidation may in part depend on the concentration of tissue iron, one of the major oxidants in vivo. We analyzed the relation between sonographically assessed carotid atherosclerosis and body iron stores in a population sample of 847 men and women aged 40 to 79 years. In a logistic regression analysis adjusting for age, sex, and all major vascular risk markers, ferritin emerged as one of the strongest indicators of carotid artery disease in both sexes (40 to 59 years; odds ratio, 1.54 per 100 micrograms/L; P < .001). The predictive significance of ferritin was found to be synergistic with that of hypercholesterolemia. Variations in body iron stores between sexes may partly explain evident sex differences in the expression of carotid atherosclerosis. In the elderly (> or = 60 years) the predictive significance of ferritin was found to decrease parallel to that of apolipoprotein B. The current study suggests a possible role of body iron in early atherogenesis.
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PMID:Body iron stores and presence of carotid atherosclerosis. Results from the Bruneck Study. 791 13

The metabolism of low density lipoprotein (LDL) oxidized with phorbol myristate acetate (PMA) stimulated neutrophils plus ferritin (LDLox) by human monocyte-derived macrophage (HMDM) was studied. Binding of 125I-labeled LDLox to HMDM and further uptake and degradation were higher than for native 125I-labeled LDL. LDLox seems to be taken up by HMDM through the scavenger receptor as indicated by competition studies with unlabeled native and autoxidized LDL. An increased concentration of cellular cholesteryl esters was observed in HMDM exposed to LDLox. Oxidative modification of LDL increased its electrophoretic migration on agarose gel and also the fragmentation of apolipoprotein B. Data suggest that LDLox is incorporated by human macrophages and can potentially induce foam-cell formation.
Atherosclerosis 1994 Jun
PMID:Human macrophage metabolism of low density lipoprotein oxidized by stimulated neutrophils and ferritin. 798 Jun 92

High body iron stores have been proposed as a risk factor for advanced atherosclerosis. We investigated the prevalence of early atherosclerotic changes, and their relation to conventional CHD risk factors and body iron status. A cross-sectional study was carried out in 206 men aged 50 to 60 years (6% random population sample). Intima-media thickness (IMT) of the carotid artery was evaluated with high-resolution B-mode ultrasonography. Statistical analyses were performed separately for men with and without cardiovascular disease (CVD). Among all the study participants, 6.6% had IMT > 1.3 mm in the common carotid artery, whereas 53.8% had IMT > 1.5 mm in the carotid bifurcation. Respective values were 4.8% and 46.8% for those without CVD, and 8.5% and 62.2% for those with CVD. Mean IMT in the carotid bifurcation, the predilection site for atherosclerosis, was 1.85 mm (95% CI 1.72; 1.98) in the men with CVD, as compared to 1.65 mm (95% CI 1.56; 1.73) in the men free of CVD. Serum LDL cholesterol (beta = 0.26), saturated fat intake (beta = 0.20), blood haemoglobin (beta = -0.29), systolic blood pressure (beta = 0.21) and smoking (beta = 0.19), jointly explained 23% of the variance in the carotid bifurcation IMT in the men without CVD. Neither serum ferritin, transferrin nor dietary iron levels were associated with carotid bifurcation atherosclerosis. On the other hand, in the men with CVD, age (beta = 0.34) and physical activity (beta = -0.25) jointly explained 16.5% of the IMT variance in the carotid bifurcation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Association of risk factors and body iron status to carotid atherosclerosis in middle-aged eastern Finnish men. 798 92

Heme proteins transport oxygen and facilitate redox reactions. Heme, however, may be dangerous, especially when free in biologic systems. For example, iron released from hemoglobin-derived heme can catalyze oxidative injury to neuronal cell membranes and may be a factor in post-traumatic damage to the central nervous system. We have shown that heme catalyzes the oxidation of low density lipoproteins which can damage vascular endothelial cells. The endothelium is susceptible to damage by oxidants generated by activated phagocytes, and this has been invoked as an important mechanism in a number of pathologies including the Adulte Respiratory Distress Syndrome (ARDS), acute tubular necrosis, reperfusion injury and atherosclerosis. Because of its highly hydrophobic nature, heme readily intercalates into endothelial membranes and potentiates oxidant-mediated damage. This injury is dependent on the iron content of heme and is completely blocked when concomitant hemopexin is added. Ferrohemoglobin, when added to cultured endothelial cells, is without deleterious effects, but if oxidized to ferrihemoglobin (methemoglobin), it greatly amplifies oxidant damage. Methemoglobin, but not ferrohemoglobin, releases its hemes which can then be incorporated into endothelial cells. Cultured endothelial cells, when exposed to methemoglobin but not ferrohemoglobin, cytochrome c or metmyoglobin, potentiate this oxidant injury. Stabilization of the methemoglobin by cyanide, haptoglobin or capture of the heme by hemopexin abrogates this effect. Paradoxically, more prolonged exposure of endothelium to heme or methemoglobin renders them remarkably resistant to oxidant challenge. Endothelium defends itself from heme by induction of the heme degrading enzyme heme oxygenase and the concomitant production of large amounts of the iron binding protein ferritin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Heme and the vasculature: an oxidative hazard that induces antioxidant defenses in the endothelium. 808 43

There is a need to change the policy of unselective iron supplementation during periods of life with physiologically increased cell proliferation. Levels of iron stores to be regarded as adequate during infancy and pregnancy are still not well established. Recent data support the view that it is not justified to interfere with physiological adaptations developed through millions of years by sophisticated and precisely coordinated regulation of iron absorption, utilization and storage. Recent data suggest that the chelatable intracellular iron pool regulates the expression of proteins with central importance in cellular iron metabolism (TfR, ferritin, and erythroid 5-aminolevulinic synthetase) in a coordinately controlled way through an iron dependent cytosolic mRNA binding protein, the iron regulating factor (IRF). This factor is simultaneously a sensor and a regulator of iron levels. The reduction of ferritin levels during highly increased cell proliferation is a mirror of the increased density of TfRs. An abundance of data support the vigorous competition for growth-essential iron between microbial pathogens and their vertebrate hosts. The highly coordinated regulation of iron metabolism is probably crucial in achieving a balance between the blockade of readily accessible iron to invading organisms and yet providing sufficient iron for the immune system of the host. The most evident adverse clinical effects of excess iron have been observed in immunodeficient patients in tropical countries and in AIDS patients. Excess iron also increases the risk of initiation and promotion of malignant processes by iron binding to DNA and by the iron-catalysed release of free radicals. Oxygen radicals were shown to damage critical biomolecules leading, apart from cancer, to a variety of human disease states, including inflammation and atherosclerosis. They are also involved in processes of aging and thrombosis. Recent clinical trials have suggested that the use of iron-chelators, natural and synthetic antioxidants, and anti-TfR monoclonal antibodies can contribute in retarding malignant cell proliferation. Hypoferraemia during pregnancy is--like haemodilution--an adaptation to the risks involved in the natural hypercoagulable state of pregnancy. It may also serve to prevent the risk of infections and mutagenicity in the highly proliferating tissues of the foetus. Blunted erythropoiesis has been revealed during the first 30 weeks of pregnancy by the use of the newly developed method of determining the soluble serum transferrin receptor. The lack of increase in erythropoietin levels proves that there is no hypoxia. Decreases in Hb and iron levels are parts of a physiological adaptation. As a consequence they should neither be treated nor prevented. It is stressed that whenever a widespread and ingrained routine medical intervention has to be changed it is essential to first monitor the potential health effects of the recommended change in a national policy.
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PMID:Adequate iron stores and the 'Nil nocere' principle. 824 2

Iron-derived reactive oxygen species are implicated in the pathogenesis of various vascular disorders including atherosclerosis, vasculitis, and reperfusion injury. The present studies examine whether heme, when liganded to physiologically relevant proteins as in hemoglobin, can provide potentially damaging iron to intact endothelium. We demonstrate that reduced ferrohemoglobin, while relatively innocuous to cultured endothelial cells, when oxidized to ferrihemoglobin (methemoglobin), greatly amplifies oxidant (H2O2)-mediated endothelial-cell injury. Drawing upon our previous observation that free heme similarly primes endothelium for oxidant damage, we posited that methemoglobin, but not ferrohemoglobin, releases its hemes that can then be incorporated into endothelial cells. In support, cultured endothelial cells exposed to methemoglobin--in contrast to exposure to ferrohemoglobin, cytochrome c, or metmyoglobin--rapidly increased their heme oxygenase mRNA and enzyme activity, thereby supporting heme uptake; ferritin production was also markedly increased after such exposure, thus attesting to eventual incorporation of Fe. These cellular methemoglobin effects were inhibited by the heme-scavenging protein hemopexin and by haptoglobin or cyanide, agents that strengthen the liganding between heme and globin. If the endothelium is exposed to methemoglobin for a more prolonged period (16 hr), it accumulates large amounts of ferritin; concomitantly, and presumably associated with iron sequestration by this protein, the endothelium converts from hypersusceptible to hyperresistant to oxidative damage. We conclude that when oxidation of hemoglobin facilitates release of its heme groups, catalytically active iron is provided to neighboring tissue environments. The effect of this relinquished heme on the vasculature is determined both by extracellular factors--i.e., plasma proteins, such as haptoglobin and hemopexin--as well as intracellular factors, including heme oxygenase and ferritin. Acutely, if both extra- and intracellular defenses are overwhelmed, cellular toxicity arises; chronically, when ferritin is induced, resistance to oxidative injury may supervene.
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PMID:Endothelial-cell heme uptake from heme proteins: induction of sensitization and desensitization to oxidant damage. 841 93

New atherosclerosis causative factors and preventive modalities have been identified. Atherogenic factors include lipid oxidation products, such as cholesterol oxidation products, malonaldehyde and other aldehydes; trans-fatty acids; some saturated fatty acids (lauric, myristic and possibly palmitic acids); and myristic acid plus cholesterol. Lipid oxidation products are well suited to induce arterial damage, based on their known cytotoxic effects; evidence also indicates the possibility of plaque promotion and stimulation of thrombogenesis. Anti-atherogenic factors include antioxidants, fish oils and other polyunsaturates (if protected from oxidation), fibre and trace minerals such as copper, manganese, selenium and zinc. Iron is unique, being considered as both a potential promoter of atherosclerosis (component of ferritin, conceivably inducing lipid oxidation) and a possible anti-atherogenic component (of antioxidant enzyme catalase). It is apparent that an entire new series of research challenges has been uncovered.
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PMID:Atherogenic and anti-atherogenic factors in the human diet. 866 Apr

This study evaluated the effect of dietary cadmium (Cd) on atherosclerosis in the rabbit. Cholesterol was added to the diet to initiate and/or accelerate atherogenesis. Cd was added to the diet at two dose levels. Uptake of Cd was 55 micro gram/kg body weight (BW)/day at the low dose level and 1350 micrograms/ kg BW/day at the high dose level. Five groups of rabbits were fed five different diets for 9 months: (1) basal diet without additional constituents; (2) background diet, which was basal diet to which cholesterol had been added; (3) the low-dose level Cd diet, which was background diet to which 2 mg Cd/kg had been added; (4) high-dose level Cd diet, which was background diet to which 50 mg Cd/kg had been added; and (5) basal diet to which 50 mg Cd/kg had been added. Dietary cholesterol increased blood total leucocyte count, serum and liver total cholesterol concentrations, serum total bilirubin concentration, low-density lipoprotein vitamin E concentration and induction of atherosclerotic plaques in the aorta and coronary arteries. Cd in the diet increased liver and kidney Cd concentrations in a dose-dependent way, decreased prothrombin time and temporarily increased urea and creatinine clearances. Slight kidney damage was induced by Cd only in animals fed the high-dose level Cd diet (with or without cholesterol). Dietary Cd partly counteracted the dietary cholesterol-induced increases of serum and liver total cholesterol concentrations, and tended to reduce plaque formation in the aorta. Dietary Cd in rabbits fed cholesterol-containing diets influenced cholesterol metabolism and tended to decrease atherosclerosis in a dose-related fashion. This is in contrast with limited epidemiological human data. Dietary Cd also decreased serum ferritin concentration and increased serum transferrin concentration. Free iron concentration is associated with myocardial infarction in man and augments the development of atherosclerosis in rabbits. It is concluded that the observed reduction in atherogenesis is related to dietary Cd-induced changes in cholesterol metabolism, increased rheology of blood and/or, most likely, reduced free iron concentration.
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PMID:Cadmium and atherosclerosis in the rabbit: reduced atherogenesis by superseding of iron? 876 54


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