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)

The one-step sandwich immunoassay is increasingly replacing the traditional two-step immunoassay due to obvious advantages such as assay speed. However, the one-step sandwich immunoassay suffers from the 'hook' effect irrespective of the analyte characteristics. The 'hook' effect is dependent primarily on the analyte concentration. Three different model analytes, human growth hormone (hGH), the dimeric form of hGH (D-hGH, having a discrete number of repeating epitopes) and ferritin (multiple epitopes) having different immunological properties have been employed in studies of the one-step sandwich immunoassay. The characteristics of each of the model analytes offer new insights into general guidelines for assay procedures. These guidelines permit rapid optimization of assay conditions for an immunoassay without a priori knowledge of the immunological characteristics of the antibody or antigen. Both experimental and theoretical data show several instances where high capacity solid-phase antibodies can effectively shift the 'hook' to relatively higher analyte concentrations. The effect of the concentration of labeled antibody on assay response was examined theoretically.
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PMID:Studies of the 'hook' effect in the one-step sandwich immunoassay. 137 75

The 'hook' effect as related to the two-step sandwich immunoassay has been investigated experimentally and theoretically. The multiple epitope interactions between the analyte and the labeled antibody cause a 'hook' in the two-step sandwich immunoassay. Three different analytes and monoclonal antibodies were chosen to carefully demonstrate the effect of the analyte characteristics on this immunoassay. Two monoclonal antibodies against two different epitopes of biosynthetic human growth hormone (hGH) was the simplest model for this study. The sandwich immunoassay for hGH shows no 'hook' effect. The non-covalent dimeric form of hGH (D-hGH) possesses two repeating epitopes which is the simplest model for an analyte having a discrete number of repeating epitopes. The D-hGH assay demonstrated a 'hook' effect in the two-step sandwich immunoassay if the labeled antibody was allowed to interact with more than one epitope. In a third system multiple epitope interactions with the labeled antibody were observed using ferritin. The effect of the analyte concentration and the liquid-phase antibody have been examined to elucidate the nature of these various interactions. The cause of the 'hook' effect in the two-step sandwich immunoassay is attributed to the desorption of the bound analyte due to a conformational change after the labeled antibody interacts with several epitopes of the adsorbed analyte.
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PMID:Multiple epitope interactions in the two-step sandwich immunoassay. 137 76

Regular bone survey radiographs have allowed identification of limb deformity and metaphyseal changes in several patients with thalassaemia major treated at the Adelaide Children's Hospital. Following the progression of limb deformity in five of these patients who were receiving human growth hormone therapy, the records of 25 thalassaemia patients were reviewed. Six patients had evidence of limb deformity, four of whom also had metaphyseal changes. Three additional patients had metaphyseal changes alone. Patients with either type of skeletal change shared similar characteristics, including younger age, earlier commencement of desferrioxamine therapy, better compliance and, in general, lower levels of ferritin. Females predominated in both groups. The frequency of sensorineural hearing loss was similar in affected and nonaffected groups and biochemical parameters, especially plasma calcium, phosphate, alkaline phosphatase, and zinc, which were normal in all patients. The cause of these skeletal changes is not clear; however, several potential factors need to be considered. Among these are focal marrow expansion in the metaphyseal region due to incomplete suppression of erythropoiesis and possible effects of desferrioxamine, including direct interference with bone growth, altered response of bone to inflammation or infection, and altered bone metabolism related to chelation of trace metals. While we can only speculate on aetiological factors, it is clear that human growth hormone therapy has resulted in exaggeration of deformity due to an increased rate of bone growth or decreased rate of mineralization of physeal cartilage. We believe that bone survey radiographs are useful in early identification of skeletal changes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Limb deformity and metaphyseal abnormalities in thalassaemia major. 774 45

We have isolated non-globin cDNA clones specific for erythroid differentiation from K562 human erythroleukemia cells and have identified those that may regulate globin gene transcription. A cDNA library was constructed from K562 cells induced by hemin for production of embryonic and fetal hemoglobins and screened against cDNA from uninduced K562 cells. Full-length clones specific for induced K562 cells were ligated into a eukaryotic expression vector and transfected into HeLa cells to allow for production of the corresponding coded polypeptide. The ability to increase epsilon- or gamma-globin promoter activity was identified using cotransfection with a second vector containing a globin gene promoter fused to a reporter gene. Six of the induced K562-specific clones exhibited the ability to increase the levels of the reporter genes, bacterial chloramphenicol acetyltransferase and human growth hormone. Sequencing analyses of these clones indicated that five were homologous to ferritin heavy and light chains and one had no homology with known DNA or protein sequences. The ferritin light chain cDNA had the greatest effect on globin gene promoter activation, increasing the gamma-globin promoter activity by 6-8-fold. The activation of the globin gene promoter in the absence of globin gene translation suggests that ferritin (or iron) may have a direct role in globin gene transcription. The subtractive library cloning strategy has enabled us to isolate cDNA clones that activate specific gene promoter without the requirement of direct DNA binding. This approach may allow further identification of the genes encoding proteins that are involved in the control of erythropoiesis.
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PMID:Activation of globin gene expression by cDNAs from induced K562 cells. Evidence for involvement of ferritin in globin gene expression. 184 May 94

The expression of a major cellular substrate for protein kinase C, the MARCKS protein, is regulated in a cell-, tissue-, and developmental stage-specific fashion; in addition, this expression can be stimulated acutely by various cytokines in certain cell types. We have begun to characterize the human gene in order to elucidate the genetic elements responsible for this highly regulated expression. We first cloned a human MARCKS cDNA, which encoded a predicted protein of 332 amino acids (Mr 31,600) that was approximately 89, 74, and 59% identical to the bovine, mouse, and chicken proteins, respectively. Regions conserved at the amino acid level included the amino-terminal myristoylation consensus sequence, the site of intron splicing, and the phosphorylation site domain. The human cDNA was used to demonstrate that tumor necrosis factor-alpha could rapidly stimulate MARCKS gene transcription in the human promyelocytic leukemia cell line HL60. Genomic clones were then isolated; sequence analysis identified a putative promoter region that had no TATA box and contained multiple transcription initiation sites in a region spanning 57 base pairs (bp). This was followed by a 5'-untranslated region of approximately 400 bp, which displayed a complex predicted secondary structure with a delta G of -73.4 kcal/mol. Plasmid constructions containing between 52 and 1453 bp of the human MARCKS promoter linked to the human growth hormone gene were then used in transient expression experiments. Constructions containing 52 and 110 bp of the MARCKS promoter did not exhibit promoter function while the larger constructions all exhibited promotor function; the 248-bp fragment of the MARCKS promoter was 80% as effective as the human ferritin promoter in stimulating expression of human growth hormone in intact cells. Using an insert from the human genomic clone as a probe, we identified human chromosome 6, q21-qter, as the location of the MARCKS gene; this has been assigned the gene symbol MACS.
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PMID:The human myristoylated alanine-rich C kinase substrate (MARCKS) gene (MACS). Analysis of its gene product, promoter, and chromosomal localization. 186 Aug 46

We investigated the possibility that insulin could stimulate translation of ornithine decarboxylase (ODC) mRNA in a murine fibroblast cell line that expresses large numbers of human insulin receptors (HIR 3.5 cells). Within 3 h after exposure to 70 nM insulin, ODC enzyme activity increased approximately 50-fold and mRNA accumulation 3-fold in the HIR 3.5 cells but not in normal fibroblasts. Pretreatment of cells with cycloheximide completely inhibited insulin-stimulated ODC expression; actinomycin D partially inhibited this effect. To determine the influence of the 5' untranslated region (5'UTR) of ODC mRNA on insulin-regulated ODC expression, plasmids were constructed which contained sequences from the 5'UTR of a rat ODC mRNA interposed between the ferritin promoter and the coding region of the human growth hormone gene. These constructions were then expressed transiently in HIR 3.5 cells. Insulin stimulated a 2-4-fold change in growth hormone accumulation in the medium of cells transiently expressing plasmids containing the entire 5'UTR of ODC mRNA or just the 5'-most 115 bases, a G/C-rich conserved sequence predicted to form a stem-loop structure and shown previously to be responsible for constitutive inhibition of translation. There was a direct correlation between the extent of insulin stimulation and the predicted secondary structure of the added 5'UTR sequences. To determine whether this effect might be due to insulin activation of initiation factors responsible for melting mRNA secondary structure, we examined the effect of insulin on the phosphorylation states of two such factors, eucaryotic initiation factors eIF-4B and eIF-4E. Insulin stimulated the phosphorylation of both initiation factors; this stimulation was evident at 15 min and maximal by 60 min. These results suggest a potential general mechanism by which insulin could preferentially stimulate translation of mRNAs whose 5'UTRs exhibit significant secondary structure by activating initiation factors involved in melting such secondary structures.
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PMID:Insulin induction of ornithine decarboxylase. Importance of mRNA secondary structure and phosphorylation of eucaryotic initiation factors eIF-4B and eIF-4E. 198 89

The synthetic peptides somatostatin (SRIF) and growth hormone-releasing hormone (GRH) were coupled directly to colloidal gold of different particle sizes. Both conjugates were biologically active in displacing the corresponding radiolabeled hormones from high affinity binding sites in pituitary membranes. Release of growth hormone (GH) from cultured anterior pituitary cells was modulated by both conjugates alone or in combination. Ultrastructural studies were performed with cells incubated at 4 degrees C (2 h) and 37 degrees C (2 min-2 h) with one of the labeled peptides or their combination. Somatotropes were identified by immunostaining with anti-rGH followed by protein A-ferritin, thus obtaining a triple labeling. Both hormone conjugates were internalized in different vesicles in the beginning but accumulated during longer incubation times in the same compartment. The secretory vesicles and the nucleus were not labeled by any hormone conjugate. In contrast to SRIF-gold, the uptake of GRH-gold conjugate decreased with longer incubation times. This effect could be neutralized by simultaneous incubation of the somatotropes with both regulating hormones. Hence, whereas the binding and internalization of SRIF by somatotropes do not seem to be influenced by GRH, the corresponding processes for GRH are stimulated by the presence of SRIF.
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PMID:Binding and internalization of gold-conjugated somatostatin and growth hormone-releasing hormone in cultured rat somatotropes. 257 28

To test the hypothesis that deficiencies in hypothalamic-pituitary function in genetic hemochromatosis result from cellular injury by iron deposits, we conducted provocative tests in 11 men with genetic hemochromatosis before and after iron depletion by serial phlebotomy and in 10 control subjects. We gave combination intravenous injections of insulin (0.15 U/kg), luteinizing hormone releasing hormone (LHRH, 100 micrograms), and thyrotropin releasing hormone (400 micrograms) and then measured plasma glucose, growth hormone, corticosteroids, follicle-stimulating hormone, luteinizing hormone, prolactin, and thyroid-stimulating hormone at 30-minute intervals for 90 minutes. Phlebotomy caused a substantial decrease in median values for serum ferritin, deferoxamine-chelatable iron, and hepatic iron concentration. Before phlebotomy, stimulation by hypoglycemia and thyrotropin releasing hormone caused significantly less secretion of growth hormone (P = 0.004) and prolactin (P = 0.03) in patients than in control subjects. No significant improvement was noted, however, in growth hormone or prolactin secretion after phlebotomy. Of the 11 patients, 7 had secondary hypogonadism, and phlebotomy did not improve the serum testosterone, follicle-stimulating hormone, luteinizing hormone, or responses to LHRH in any case. Chlorpromazine injections failed to elevate serum prolactin in all patients, and administration of levodopa caused a partial reduction in serum prolactin; thus, the hypothalamus may be an important locus of endocrine malfunction in these patients. We conclude that abnormal hypothalamic-pituitary function in genetic hemochromatosis is not substantially improved by iron-depletion therapy.
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PMID:Influence of phlebotomy treatment on abnormal hypothalamic-pituitary function in genetic hemochromatosis. 310 26

Cultured cells from adult rat anterior pituitaries and intermediate lobes were treated with proteinase inhibitor substrate analogues (Boc-DPhe-Pro-Arginal [BOC-DPPA], DPhe-Pro-Arginal [DPPA], BOC-DPhe-Leu-Lysinal [BOC-DPLL], BOC-DPhe-Phe-Lysinal [BOC-DPPL]) to elucidate their effect on cell morphology. It was established that BOC-DPPA and DPPA (which in previous studies stimulated alpha-MSH release [6]) caused a slight decrease in the number of immunoreactive secretory granules in melanotrophs. BOC-DPLL, which inhibited growth hormone and prolactin release, did not alter the fine structural features of cultured cells. No difference was observed in the membrane turnover traced by cationic ferritin when cells were treated with BOC-DPPL. We suggest that substrate analogues used are harmless to pituitary cells.
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PMID:Proteinase inhibitors while influencing hormone release do not affect cell morphology of hypophyseal cultures. 313 79

Ferritin, a cytoplasmic protein critical in iron metabolism, displays iron-dependent regulation of its biosynthetic rate with no corresponding changes in mRNA levels. An iron-responsive element (IRE) has been identified in the 5'-untranslated region (UTR) of the human ferritin heavy chain mRNA which, when placed in the 5'-UTR of heterologous reporter genes, confers iron-dependent translational regulation to the hybrid mRNAs. However, whereas the biosynthetic rate of ferritin in response to changes in iron status exhibits a 30-80-fold range, the apparent ranges observed for reporter gene constructs utilizing chloramphenicol acetyltransferase assays or human growth hormone radioimmunoassays have been much less. A deletion and reconstitution study was undertaken to address the possibility that regions of the ferritin gene and mRNA other than the IRE may be necessary for the production of the full range of iron regulation. Data are presented that demonstrate that the IRE alone is capable of conferring iron-dependent translational regulation of biosynthesis to downstream encoded proteins that is both qualitatively and quantitatively similar to that observed with expression of ferritin itself. Thus, the complete range of iron-dependent translational regulation conferred by the IRE occurs independently of the presence of the ferritin promoter, other regions of the ferritin 5'-UTR, the ferritin coding region, and the ferritin 3'-UTR. Additionally, experiments addressing the translatability in vivo of various ferritin construct mRNAs support the theory that the IRE functions as the binding site for a translational repressor.
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PMID:The iron-responsive element is the single element responsible for iron-dependent translational regulation of ferritin biosynthesis. Evidence for function as the binding site for a translational repressor. 319 10

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