UNIPROT:P06889 - FACTA Search

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Ceruloplasmin, the blue copper-protein of vertebrate plasma, has been reviewed mainly from a functional point of view. However we have surveyed the chemistry and state copper in the molecule because of the implications of the recent data of Ryden (13,28). His observations suggest that unless special precautions are taken in the isolation of ceruloplasmin degradation, probably proteolytic, produces fragments of various sizes. When isolated, these fragments appear to be held together by noncovalent interactions. Comparison of their catalytic and spectral properties reveals no significant differences from a single homogeneous species of molecular weight of 134,000 isolated by Ryden's methods. On the other hand, the homogeneous molecule may differ in properties highly sensitive to conformation and three-dimensional parameters. Three types of copper atoms have been identified in ceruloplasmin, but their amino acid environment is still unknown. Ceruloplasmin possesses significant oxidase activity towards Fe(II) and numerous aromatic amines and phenols. Its ferroxidase activity has led to the discovery that it is a molecular link between copper and iron metabolism. Ceruloplasmin mobilizes iron into the plasma from iron storage cells in the liver. An equally important duty is that ceruloplasmin, after its rapid biosynthesis in the liver, serves as a major copper transport vehicle, comparable to transferrin. Evidence is accumulating that the copper atoms of ceruloplasmin are a prerequisite for copper utilization in the biosynthesis of cytochrome oxidase and other copper proteins. The ability of ceruloplasmin to release copper at specific cellular sites may be related to its broad substrate spectrum of biological reducing agents. A possible third role of ceruloplasmin is as a contributor to the regulation of the balance of biogenic amines through its oxidase action on the epinephrine and the hydroxyindole series. Thus ceruloplasmin is a copper-protein with several important functions, all of which are directly related to its oxidase activity.
Adv Enzymol Relat Areas Mol Biol 1976
PMID:Ceruloplasmin: the copper transport protein with essential oxidase activity. 77 38

Quantitative immunological comparisons of three avian proteins, transferrin, ovalbumin, and penalbumin, indicate that penguins are phylogenetically most closely related to loons, albatrosses, herons, and grebes. These data support the theory that the ancestors of penguins were flying oceanic birds and that flightlessness in penguins has evolved independently from flightlessness in ratites.
J Mol Evol 1976 Oct 27
PMID:Penguin evolution: protein comparisons demonstrate phylogenetic relationship to flying aquatic birds. 97 50

A biochemical approach was used to study the evolution of ratite birds, i.e., the ostriches, rheas, cassowaries, emus, and kiwis. Quantitative immunological comparison of transferrin from ratites, tinamous, and other flying birds indicates that all the ratites and tinamous are allied phylogenetically and that they are of monophyletic origin relative to other birds. To explain the current geographic distribution of ratites and the magnitude of the transferrin distances, it is supposed that the ancestors of these flightless birds walked across land bridges between the southern continents during Cretaceous times.
J Mol Evol 1976 Oct 27
PMID:Evolution of flightless land birds on southern continents: transferrin comparison shows monophyletic origin of ratites. 97 51

Fe(III), Cu(II), Co(III), and Mn(III) complexes of ovo- and human serum transferrins show resonance enhanced Raman bands near 1600, 1500, 1270, and 1170 cm-1 upon excitation with laser frequencies which fall within the visible absorption bands of those metalloproteins. Comparison of the visible absorption and resonance Raman spectra of the Cu(II)-transferrin complexes with those for the Cu(II) model compound, bis(2,4,6-trichlorophenolato)diimidazolecopper(II) monohydrate, indicates that the resonance Raman bands are due to enhancement of phenolic vibrational modes. For the model (Cu(II) compound, a normal coordinate analysis was used to aid our assignment of the observed resonance bands at 1562, 1463, 1311, and 1122 cm-1 to A1 vibrational modes of the 2,4,6-trichlorophenolato moiety. These assignments are consistent with those made for Cu(II)-transferrins. The latter assignments were based upon calculated A1 frequencies for p-methylphenol (Cummings, D.L., and Wood, J.L. (1974), J. Mol. Struct. 20, 1). The wavelength shifts in the resonance bands for the model compound from those for Cu(II)-transferrins are due to the influence of the chloro substituents on the planar vibrations of phenol. These results clearly identify tyrosine as a ligand in copper binding to transferrins.
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PMID:Resonance Raman spectra of iron(III)-, copper(II)-, cobalt(III)-, and manganese(III)-transferrins and of bis(2,4,6-trichlorophenolato)diimidazolecopper(II) monohydrate, a possible model for copper(II) binding to transferrins. 99 Feb 53

1. Transferrin was isolated from umbilical cord blood by means of gel filtration on Sephadex G-150 and ion exchange chromatography on DEAE-Sephadex A-50, and its properties were compared with those of transferrin isolated from human adult blood. 2. Both glycoproteins were able to bind a maximum of two atoms of iron per molecule and have very similar amino acid and carbohydrate compositions. 3. The molecular weight of cord-blood transferrin, assessed by equilibrium centrifugation, was 78200, and its sedimentation velocity appeared to be 5-2S. 4. Cord-blood transferrin and adult blood transferrin were found to be immunochemically identical. 5. No differences could be detected between the transferrins in their capacities to deliver iron to immature erythrocytes derived from rat bone marrow, which indicates that the rapid transport of iron across the placenta cannot be explained by differences between foetal and maternal transferrin.
Clin Sci Mol Med 1975 May
PMID:Isolation, characterization and function of cord-blood transferrin. 112 26

1. The effect of iron chelators on iron uptake, ferritin and total protein synthesis was studied in cultured Chang cells. Desferrioxamine depressed ferritin synthesis and completely inhibited iron uptake by ferritin protein. Rhodotorulic acid reduced iron uptake by the cells but had little effect on ferritin synthesis. Diethylenetriamine pentaacetic acid produced complete inhibition of iron uptake and all protein synthesis. 2,3-Dihydroxybenzoic acid (2,3-DHB) had no effect in this system. 2. When 2,3-DHB was incubated with a liver homogenate, its subsequent addition to a Chang cell culture resulted in depression of ferritin synthesis, iron uptake into the protein and some depression of total protein synthesis. Pretreatment of rhodotorulic acid did not affect its properties. 3. Non-ferritin iron in the Chang cell cytosol was dialysable, available for binding to transferrin and formed chelates which appeared, on gel chromatography, to be of low molecular weight. Gel chromatography of cytosol after incubation of the cells with chelating agents showed non-ferritin iron to be in a similar form. 4. Loss of non-ferritin iron from the cells occurred only when the transferrin in the medium was unsaturated. In the presence of chelating agents non-ferritin iron was lost from the cells even when transferrin was 100% saturated. 5. The results confirm the presence of an intracellular labile iron pool which is available for chelation, and demonstration that different iron chelators have different metabolic effects.
Clin Sci Mol Med 1976 Mar
PMID:The effect of chelating agents on cellular iron metabolism. 125 27

Proteins from grossly and histologically normal human aortic intimas and human aortic intima with fatty streaks or fibro-fatty lesions were extracted with 9 M urea mixture. Protein extracts were mixed with an internal absorbance calibrator (carbonic anhydrase) and subsequently separated by two-dimensional gel electrophoresis, silver stained, and quantitated by a laser beam densitometer. The vascular-origin proteins actin, tropomyosin-like proteins, tubulin, glycoprotein G35, and two myosin light chains were present in the highest amounts in normal aortic intima (27-year-old male). Quantitation of vascular-origin proteins in aortic intima with a fibro-fatty lesion from the same subject showed a slight decrease in relative amount of these proteins as compared to the normal intima. Several polypeptides (P15, P18, P60, P110b) and plasma-derived proteins not observed in the normal intima were found in fibro-fatty lesion (albumin, haptoglobin beta-chain, fibrinogen beta-chain, alpha 1-HS-glycoprotein). Other proteins which were present in very low amounts in the normal intima (transferrin, alpha 1-antitrypsin, apolipoprotein A-1, P56, P190) were found to be major proteins of intima with fibro-fatty lesion. Differences in relative amount of plasma-derived and vascular-origin proteins between normal intima and intima with fatty streaks, studied in a large number of specimens from 38 thoracic intimas and 18 paired abdominal intimas (16-34 years old) were less prominent. Statistically significant increases of the albumin/actin ratio were found in fatty streaks as compared to paired normal intimas as well as in the mean value of albumin/actin ratio in the group of fibro-fatty lesions (mean = 6.1) as compared to the group of fatty streaks (mean = 1.7) or normal intima (mean = 0.7). Several lesion unique proteins were observed; however, the frequency of the occurrence of these proteins in 41 specimens with lesion was low. No significant differences were observed in intima protein pattern and quantities of selected intima proteins between paired thoracic and abdominal aortas.
Exp Mol Pathol 1992 Dec
PMID:Quantitative alteration of some aortic intima proteins in fatty streaks and fibro-fatty lesions. 128 71

Mullerian inhibiting substance (MIS) is a glycoprotein hormone expressed by Sertoli cells that induces the regression of Mullerian ducts during development of the male reproductive tract. Transgenic mice carrying a fusion gene composed of human MIS transcriptional regulatory sequences linked to the SV40 T-antigen gene specifically develop testicular tumors composed of a cell type histologically resembling the Sertoli cell. The lack of pathology at other sites suggests tissue-restricted expression of the transgene. A cell line derived from one of the testicular tumors has been established that continues to express markers associated with Sertoli cells, such as transferrin, sulfated glycoprotein-2, and inhibin-beta B. The cell line does not express detectable levels of inhibin-alpha, MIS, or FSH receptor. However, the cells have retained forskolin responsiveness. As adult Sertoli cells cannot be propagated in vitro, the availability of an immortal cell line displaying features characteristic of normal Sertoli cells should aid in subsequent analyses of the biology of this cell type.
Mol Endocrinol 1992 Sep
PMID:Directed expression of an oncogene to Sertoli cells in transgenic mice using mullerian inhibiting substance regulatory sequences. 133 74

We present here the physicochemical and biochemical properties of NBD-DFO, the 7-nitrobenz-2-oxa-1,3-diazole (NBD) derivative of the siderophore, desferrioxamine B (DFO) (Lytton et al., Mol. Pharmacol. 40, 584, 1991). Modification of DFO at its terminal amine renders it more lipophilic, imparts to it fluorescent properties, and is conservative of the high-affinity iron(III) binding capacity. NBD-DFO partitions readily from aqueous solution into n-octanol (Pcoeff = 5) and displays solvent-induced shifts in absorption and fluorescence spectra. The relative quantum yield of the probe's fluorescence increases over a 10-fold range with decreasing dielectric constant of the solvent. Fluorescence is quenched upon binding of iron(III) to the probe. We demonstrate here the application of NBD-DFO for the specific detection and monitoring of iron (III) in solutions and iron(III) mobilization from cells. Interactions between fluorescent siderophore and the ferriproteins ferritin and transferrin were monitored under physiological conditions. Iron removal from ferritin was evident by the demonstrable quenching of NBD-DFO fluorescence by scavenged iron(III). Quantitation of iron sequestered from cells by NBD-DFO or from other siderophore-iron(III) complexes was accomplished by dissociation of NBD-DFO-Fe complex by acidification and addition of excess ethylenediamin-etetraacetic acid. The sensitivity of the method and the iron specificity indicate its potential for monitoring chelatable iron under conditions of iron-mediated cell damage, iron overload, and diseases of iron imbalance such as malaria.
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PMID:Monitoring of iron(III) removal from biological sources using a fluorescent siderophore. 133 42

The addition of seminiferous tubule (ST) culture medium (STM) prepared from testes of either busulfan-treated (Bus) or cryptorchid (Cryp) or genetically sterile (hd) rats, to Percoll purified Leydig cells leads to a further increase of LH-stimulated testosterone (T) output (26, 43 and 14%, respectively). Taking into account that the Sertoli cell number per cm of ST is 2.6, 1.8 and 1.4-fold greater in Bus, Cryp and hd rats than in controls, the above STM effects on T output, expressed per 10(6) Sertoli cells are in fact lower (63, 44 and 43%, respectively) that those of control STM. Similar results have been obtained for the STM transferrin levels which are decreased, 74, 67 and 45%, respectively in Bus, Cryp and hd animals. So, it is likely that the Sertoli cell secretion of both the paracrine factor involved on Leydig cell T production and the transferrin is influenced mainly by spermatids and to a lesser extent by spermatocytes of mature rat testis.
J Steroid Biochem Mol Biol 1992 Mar
PMID:Germ cell-Sertoli cell interactions and production of testosterone by purified Leydig cells from mature rat. 134 25

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