Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cold insoluble globulin (CIG) is the main non-clottable protein of heparin precipitable fraction from dermatological patients. CIG is a glycoprotein with a molecular weight of about 440 000. It is found on cell membranes on fibroblasts and is a normal protein of human plasma and serum. Levels of CIG in citrated plasma are sex- and age-dependent, but the origin and its physiological significance is unknown. In plasma of 294 dermatological patients, levels of CIG were elevated in eczema contactum allergicum (males and females 30-49 years), psoriatic arthritis (females 50 years and above) and were depressed in dermatitis herpetiformis (males 30-49 years).
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PMID:Studies on cold insoluble globulin in dermatological patients. II. Its immunochemical quantitation in citrated plasma in a group of unselected dermatological inpatients. 7 27

Convalescent sera from proven cases of infection with Mycoplasma pneumoniae, and rabbit antisera to M. pneumoniae and to human erythrocyte glycoprotein contained cold hemagglutinins which were reactive only for human erythrocytes. Only the human serum cold agglutinins were inhibited by soluble integral glycoproteins derived from human erythrocyte ghosts by treatment with chloroform-methanol. Rabbit antiserum to chloroform-methanol glycoprotein, as well as to M. pneumoniae, fixed complement with either M. pneumoniae or chloroform-methanol glycoprotein antigens. The findings support the hypothesis that the cold agglutinins elicited by M. pneumoniae infection represent a cross-reaction between determinants common to erythrocyte glycoprotein containing I antigen and the membrane of M. pneumoniae.
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PMID:Cold hemagglutinin cross-reactivity with Mycoplasma pneumoniae. 8 98

Depression of reticuloendothelial (RE) phagocytic function has been clearly documented following trauma and operation. This phagocytic failure is mediated in part by depletion of an opsonic glycoprotein. Depletion of this opsonic protein may result in prolonged blood retention of potentially harmful particulates that may interfere with the microcirculation and may possibly result in altered organ function. Isolation and identification of this opsonic protein has led to the finding of the identity between opsonic glycoprotein and cold insoluble globulin (CIg) or so-called plasma fibronectin. Since CIg is concentrated in cryoprecipitate, this blood component was used as a readily available source of opsonic protein for replacement studies. Nine patients were studied following a 1-hour infusion of cryoprecipitate obtained from 10 units of plasma and suspended in a volume of 250 ml. Both the pulmonary shunt fraction and the fraction of dead space ventilation decreased significantly (P = 0.02) after cryoprecipitate administration. Limb blood flow (P = 0.001), limb oxygen consumption (P = 0.001), and reactive hyperemia of the limb (P = 0.05) increased significantly following cryoprecipitate infusion. Cardiac output, total oxygen consumption did not change consistently. The data demonstrate that the infusion of cryoprecipitate resulted in improved pulmonary and microcirculatory function--possibly due to opsonic glycoprotein replacement.
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PMID:Cardiovascular hemodynamics after opsonic alpha-2-surface binding glycoprotein therapy in injured patients. 8 71

Rh-pos. human red cells sensitized with IgG-Anti-D showed at 4 degrees C an intracellular Na+-accumulation, which was amplified by an increase in the Na+-concentration in the incubation medium. This increase of the intracellular Na+-concentration may be due to a passive Na+-influx since the Na+-K+-ATPase system does not work at this temperature. At the optimal reaction-temperature of the enzyme the Na+-K+-ATPase activity of the sensitized Rh-pos. red cells was inhibited proportionally to the anti-D concentration. Both the amplified Na+-influx and the inhibition of the active Na+-transport caused an osmotic hemolysis. The hemoglobin release was significant above the anti-D titer step of 1:512. This mechanism suggests that the intravasular part of the immunohemolysis with Rh incompatibility was generated by an impaired active and passive cation transport following the antigen-antibody reaction. This suggestion is supported by the fact that IgG-Anti-D neither stimulated the complement system nor the intravascular monocyte mediated cell lysis, since the activity of the effector cells is reduced by the surplus of sensitized red cells and the presence of other inhibiting IgG immunoglobulins. The biochemical relationship of the Rh-D-antigen and the Na+-K+ATPase both located on membrane lipoproteins, may be the reason why only the antigen-antibody reaction in the Rh-D system impaired the cation transport. The antigen-antibody reaction of IgM-Anti-A and of the cold agglutinin IgM-Anti-I reacting with glycolipid and with glycoprotein membrane antigens respectively did not impair the cation transport after complement inactivation.
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PMID:[Impairment of the cation transport on Rh-pos. human red cells after incubation with IgG-anti-D (author's transl)]. 14 46

1. Soluble ATPase (adenosine triphosphatase) activity is released when rat liver submitochondrial particles are shaken with chloroform, provided that ATP or glycerol is present in the suspending medium. The extraction is very rapid and appears to be complete. 2. The ATPase of the chloroform extract is about 50% pure and can be readily purified to a specific activity of 60-70mumol/min per mg of protein by (NH(4))(2)SO(4) fractionation and column chromatography on Sephadex G-200. 3. The particulate and soluble ATPases have many similar properties, including their K(m) values for ATP, activation by various metal ions, hydrolytic activity with other nucleotides and stimulation by bicarbonate ions. 4. Unlike the particulate enzyme, the soluble enzyme is cold-labile and insensitive to oligomycin. 5. The molecular weight indicated by the mobility of the soluble ATPase on Sepharose 6B is 360000. 6. The soluble ATPase combines very readily with liver submitochondrial particles depleted of ATPase by salt extraction, and oligomycin-sensitivity is restored. Very little recombination of the enzyme occurs with chloroform-extracted particles. 7. The soluble enzyme contains orcinol-reactive material, suggesting that it may be a glycoprotein. The carbohydrate content was estimated to be 1-2% by weight. 8. It is concluded that the liver ATPase obtained by the chloroform extraction method of Beechey, Hubbard, Linnett, Mitchell & Munn [(1975) Biochem. J.148, 533-537] is similar to other preparations described previously and that this method is superior in simplicity and speed.
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PMID:Purification and properties of the adenosine triphosphatase released from the liver mitochondrial membrane by chloroform. 15 21

When completely demineralized, the densely packed structure of bone matrix does not recalcify, neither in physiologic solutions in vitro nor in implants in vivo. Even when inorganic and organic calcification inhibitors (which normally are stored in bone matrix) are removed first by autolytic digestion in neutral buffers at 37C and then by sequential chemical extraction, implants of the EDTA insoluble residue will not recalcify after as long as 4 wk in a muscle pouch. However, if first demineralized in cold dilute HCl, second, extracted and autodigested in buffers solution at 37C, and then further extracted in EDTA and other solutions at 2C, a calcification initiator protein (Cp) is unmasked, and the residue will invariable recalcify. CIP, isolated by gel filtration and column chromatography, is a disulfide-bonded glycoprotein aggregate composed of subunites of a moleclar mass of 55,000. CIP is composed of a large proportion of acidic amino acids and has a calcium binding capacity of about 1.8 times greater than albumin. The affinity constant CaCIP, calculated by ultrafiltration of physiologic solutions of Ca2+, is log K, 2.9. Observations on implants of residues that containe a) CIP but not a bone morphogenetic property (BMP), B) BMP accompanied by CIP activity, or c) neither BMP nor CIP activity suggested that BMP covers CIP and that the two are attached to bone collagen in tandem. Whether CIP plays a part in calcification of the normal skeleton requires further investigation.
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PMID:A bone matrix calcification-initiator noncollagenous protein. 19 Sep

Nucleus- and mitochondrion-free membranes from hamster lymphocytes transformed by simian virus 40 (SV40), GD248 cells, cause guinea pigs to produce immune sera that reveal the presence in GD248 plasma membranes and mitochondria of two types of glycoprotein that are not detected in membranes of normal lymphocytes [Schmidt-Ullrich, R., Thompson, W. S. & Wallach, D. F. H. (1977) Proc. Natl. Acad. Sci. USA 74, 643-647]. Indirect immune fluorescence of living, SV40-transformed T19 hamster reticulum cells, Balb/c 3T3 mouse fibroblasts, and W18 VA2 human fibroblasts, using the antisera against GD248 membrane, at 4 degrees produced a distinct cell surface fluorescence; however, above 20 degrees , staining at the nuclear perimeter, the SV40 U-antigen reaction, becomes equally prominent. In SV40-transformed cells that had been fixed in cold acetone, as well as in purified GD248 nuclei, thermostable U-antigen staining is dramatic, but there is no reaction for nuclear T-antigen. Rabbit antisera against T19 cells gave immunofluorescence reactions equivalent to those obtained with the antisera against GD248 cells. Normal guinea pig or rabbit sera and cells that had not been transformed by SV40 gave no reaction. Our sera from tumor-bearing hamsters gave only nuclear T-antigen fluorescence. The results indicate the presence of related, SV40-specific antigens in the surface membranes, nuclear envelope, and possibly other intracellular organelles of SV40-transformed cells.
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PMID:Transformation by simian virus 40 induces virus-specific, related antigens in the surface membrane and nuclear envelope. 19 91

Thiamine-binding protein was isolated from Saccharomyces cerevisiae by successive procedures of cold osmotic shock treatment, DEAE-cellulose chromatography and ultrafiltration. The purified thiamine-binding protein was an electrophoretically homogeneous molecule which appeared to be a glycoprotein with a molecular weight of 140 000 by sodium dodecyl sulfate polyacrylamide gel electrophoresis. No thiamine-binding protein was observed by disc gel electrophoresis in the shock fluid released from yeast cells grown in the presence of 1 muM thiamine, indicating that the formation of this protein is regulated by exogenous thiamine as previously suggested.
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PMID:Isolation of a thiamine-binding protein from Saccharomyces cerevisiae. 37 87

Macromolecular insoluble cold globulin is a glycoprotein synthesized predominantly by T lymphocytes in the mouse. The present report details experiments demonstrating the plasma membrane distribution of MICG on T lymphocytes. By utilizing immunofluorescent techniques it was shown that MICG was located in the external cell surface of 98% of thymic lymphocytes and 60% of splenic lymphocytes. Furthermore, in spleen cells, it was demonstrated that T cells and not B cells were surface MICG positive. Antibody to MICG was able to cap all of the immunofluorescent-positive (60%) spleen cells. In contrast, anti-MICG antibody did not induce cap formation on thymus cells. Only when dilute solutions of antibody were used did MICG cap on the thymus cells. Employing limited proteolysis of thymus and spleen cells MICG was shown to be regenerated on the surface of T cells with a half-life of 3.5 hr. The distribution and cell surface characteristics of MICG are discussed in terms of a "receptor-like" function for this protein.
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PMID:Macromolecular insoluble cold globulin (MICG): a novel protein from mouse lymphocytes. IV. Evidence for the plasma membrane distribution of MICG. 38 14

Respiratory infection with Mycoplasma pneumoniae evokes immunoglobulin M autoantibody which agglutinates human erythrocytes at 4 degrees C (cold agglutinin) and is specific for I antigen. Cross-reactions between surface antigens of M. pneumoniae and human erythrocytes, previously examined by serological analysis, were examined by transmission and scanning electron microscopy. Ferritin-labeled human antimycoplasmal and rabbit antisera to erythrocyte membrane components reacted with antigens on the surface of both M. pneumoniae and erythrocytes. Adsorption of human erythrocytes to M. pneumoniae was blocked by the same antisera without ferritin label. It is proposed that the cross-reactive specificity lies in peripheral areas of the mycoplasmal cell, probably in a surface carbohydrate which has antigenic identity with erythrocyte glycoprotein.
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PMID:Immune electron microscopy of cross-reactions between Mycoplasma pneumoniae and human erythrocytes. 45 71


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