UMLS:C0393754 - FACTA Search

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Query: UMLS:C0393754 (HSA)
2,996 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several approaches were explored for obtaining high sequence coverage in protein modification studies performed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS). Human serum albumin (HSA, 66.5kDa) was used as a model protein for this work. Experimental factors considered in this study included the type of matrix used for MALDI-TOF MS, the protein digestion method, and the use of fractionation for peptide digests prior to MALDI-TOF MS analysis. A mixture of alpha-cyano-4-hydroxycinnamic acid and 2,5-dihydroxybenzoic acid was employed as the final matrix for HSA. When used with a tryptic digest, this gave unique information on only half of the peptides in the primary structure of HSA. However, the combined use of three enzyme digests based on trypsin, endoproteinase Lys-C, and endoproteinase Glu-C increased this sequence coverage to 72.8%. The use of a ZipTip column to fractionate peptides in these digests prior to analysis increased the sequence coverage to 97.4%. These conditions made it possible to examine unique peptides from nearly all of the structure of HSA and to identify specific modifications to this protein (e.g., glycation sites). For instance, Lys199 was confirmed as a glycation site on normal HSA, whereas Lys536 and Lys389 were identified as additional modification sites on minimally glycated HSA.
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PMID:Obtaining high sequence coverage in matrix-assisted laser desorption time-of-flight mass spectrometry for studies of protein modification: analysis of human serum albumin as a model. 1635 58

Protein oxidation is linked to cellular stress, aging, and disease. Protein oxidations that result in reactive species are of particular interest, since these reactive oxidation products may react with other proteins or biomolecules in an unmediated and irreversible fashion, providing a potential marker for a variety of disease mechanisms. We have developed a novel system to identify and quantitate, relative to other states, the sites of oxidation on a given protein. This presents a significant advancement over current methods, combining strengths of current methods and adding the abilities to multiplex, quantitate, and probe more modified amino acids. A specially designed Oxidation-dependent carbonyl-specific Element-Coded Affinity Mass Tag (O-ECAT), AOD, ((S)-2-(4-(2-aminooxy)-acetamido)-benzyl)-1,4,7,10-tetraazacyclododecane-N,N',N' ',N'''-tetraacetic acid, is used to covalently tag the residues of a protein oxidized to aldehyde or keto end products. O-ECAT can be loaded with a variety of metals, which yields the ability to generate mass pairs and multiplex multiple samples. The O-ECAT moiety also serves as a handle for identification, quantitation, and affinity purification. After proteolysis, the AOD-tagged peptides are affinity purified and analyzed by nanoLC-FTICR-MS (nanoliquid chromatography-Fourier transform ion cyclotron resonance-mass spectrometry), which provides high specificity in extracting coeluting AOD mass pairs with a unique mass difference and allows relative quantitation based on isotopic ratios. Using this methodology, we have quantified and mapped the surface oxidation sites on a model protein, recombinant human serum albumin (rHSA) in its native form (as purchased) and after FeEDTA oxidation both at the protein and amino acid levels. A variety of modified amino acid residues including lysine, arginine, proline, histidine, threonine, aspartic, and glutamic acids, were found to be oxidized to aldehyde and keto end products. The sensitivity of this methodology is shown by the number of peptides identified, twenty peptides on the native protein and twenty-nine after surface oxidation using FeEDTA and ascorbate. All identified peptides map to the surface of the HSA crystal structure, validating this method for identifying oxidized amino acids on protein surfaces. In relative quantitation experiments between FeEDTA oxidation and native protein oxidation, identified sites showed different relative propensities toward oxidation, independent of amino acid residue. This novel methodology not only has the ability to identify and quantitate oxidized proteins but also yields site-specific quantitation on a variety of individual amino acids. We expect to extend this methodology to study disease-related oxidation.
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PMID:Method to site-specifically identify and quantitate carbonyl end products of protein oxidation using oxidation-dependent element coded affinity tags (O-ECAT) and nanoliquid chromatography Fourier transform mass spectrometry. 1651 68

Artificial O2-carrying hemoprotein composed of human serum albumin including tetrakis(o-amidophenyl)porphinatoiron(II) (Fe4P or Fe3P) [HSA-FeXP] has been modified by maleimide- or succinimide-terminated poly(ethylene glycol) (PEG), and the formed PEG bioconjugates have been physicochemically characterized. 2-Iminothiolane (IMT) reacted with the amino groups of Lys to create active thiol groups, which bind to alpha-maleimide-omega-methoxy PEG [Mw: 2-kDa (PEG(M2)), 5-kDa (PEG(M5))]. On the other hand, alpha-succinimidyl-omega-methoxy PEG [Mw: 2-kDa (PEG(S2)), 5-kDa (PEG(S5))] directly binds to Lys residues. MALDI-TOF MS of the PEG-conjugated HSA-FeXP showed distinct molecular ion peaks, which provide an accurate number of the PEG chains. In the case of PEG(MY)(HSA-FeXP), the spectroscopic assay of the thiol groups also provided the mean of the binding numbers of the polymers, and the degree of the modification was controlled by the ratio of [IMT]/[HSA]. The viscosity and colloid osmotic pressures of the 2-kDa PEG conjugates (phosphate-buffered saline solution, [HSA] = 5 g dL(-1)) were almost the same as that of the nonmodified one, whereas the 5-kDa PEG binding increased the rheological parameters. The presence of flexible polymers on the HSA surface retarded the association reaction of O2 to FeXP and stabilized the oxygenated complex. Furthermore, PEG(MY)(HSA-FeXP) exhibited a long circulation lifetime of FeXP in rats (13-16 h). On the basis of these results, it can be concluded that the surface modification of HSA-FeXP by PEG has improved its comprehensive O2-transporting ability. In particular the PEG(MY)(HSA-FeXP) solution could be a promising material for entirely synthetic O2-carrying plasma expander as a red cell substitute.
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PMID:Poly(ethylene glycol)-conjugated human serum albumin including iron porphyrins: surface modification improves the O2-transporting ability. 1653 71

Previous studies of secretion from basophils have demonstrated the phenomenon called nonspecific desensitization, the ability of one IgE-mediated stimulus to alter the cell's response to other non-cross-reacting IgE-mediated stimuli, and a process that would modify phosphatidylinositol 3,4,5-phosphate levels was speculated to be responsible for nonspecific desensitization. The current studies examined the changes and characteristics of SHIP1 phosphorylation as a measure of SHIP1 participation in the reaction. Based on the earlier studies, two predictions were made that were not observed. First, the kinetics of SHIP1 phosphorylation were similar to reaction kinetics of other early signals and returned to resting levels while nonspecific desensitization remained. Second, in contrast to an expected exaggerated SHIP phosphorylation, cells in a state of nonspecific desensitization showed reduced SHIP phosphorylation (compared with cells not previously exposed to a non-cross-reacting Ag). Discordant with expectations concerning partial recovery from nonspecific desensitization, treatment of cells with DNP-lysine to dissociate bound DNP-HSA, either enhanced or had no effect on SHIP phosphorylation following a second Ag. These experiments also showed a form of desensitization that persisted despite dissociation of the desensitizing Ag. Recent studies and the results of these studies suggest that loss of early signaling components like syk kinase may account for some of the effects of nonspecific desensitization and result in a form of immunological memory of prior stimulation. Taken together, the various characteristics of SHIP phosphorylation were not consistent with expectations for a signaling element involved in nonspecific desensitization, but instead one which itself undergoes nonspecific desensitization.
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PMID:Nonspecific desensitization, functional memory, and the characteristics of SHIP phosphorylation following IgE-mediated stimulation of human basophils. 1681 60

Advanced glycation end-products (AGEs) inhibit ischemia-induced angiogenesis but are potential triggers of neoangiogenesis that occurs in peritoneal dialysis (PD) patients. We investigated whether the effect of glucose and AGEs on human peritoneal mesothelial cells (HPMCs) might alter the release of vascular endothelial growth factor (VEGF) and subsequently the formation of capillary tubes by human umbilical vein endothelial cells (HUVECs). HPMCs were exposed to glucose and the glycated protein Nvarepsilon-(carboxymethyl)lysine-human serum albumin (CML-HSA) and VEGF production was measured by reverse transcription-polymerase chain reaction and enzyme-linked immunosorbent assay. Capillary tube formation by HUVECs in presence of HPMC supernatant or co-cultured with HPMC was investigated. AGE and VEGF levels in PD effluents from 11 patients were measured. CML-HSA stimulated VEGF production by HPMCs, P<0.001. Glucose and AGE inhibited capillary tube formation by HUVECs, P<0.001. HPMC supernatant potentiated capillary tube formation, P<0.001. In co-culture with HPMC capillary tube formation was increased, especially by HPMCs stimulated by CML-HSA, P<0.001. Anti-VEGF antibody limited this effect, P<0.001. Preincubation of HPMCs with anti-receptor for AGEs (RAGE) antibody reduced capillary tube formation, P<0.001. AGE and VEGF levels in PD effluents were increased during long dwell time, P<0.05 and P<0.001, respectively. In a co-culture system, we showed that VEGF production by HPMC favors capillary tube formation through mesothelial RAGE activation and could explain neoangiogenesis in PD patient.
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PMID:Mesothelial RAGE activation by AGEs enhances VEGF release and potentiates capillary tube formation. 1714 74

Cyanide (CN) is a ubiquitous environmental toxicant. The measurement of CN in whole blood is a common exposure assay, but values are error prone because of CN's rapid metabolism and clearance (t1/2 < 1 h) from this compartment. This study was undertaken to determine whether CN forms covalent adduct(s) with plasma proteins that could serve as stable biomarker(s) and potential surrogate(s) of exposure. When added to human blood, plasma, or serum, CN formed covalent adducts with immunoglobulin G (IgG) and serum albumin (HSA) in the plasma fraction. Covalent adducts were not detected in the cellular, primarily erythrocyte, fraction. With human, mouse, and rabbit IgGs, the reaction with CN occurred at intra- and/or interchain disulfide linkages in the heavy and light chains. Digestion of CN-treated HSA with trypsin or the endoproteinase Lys-C at basic pH produced tautomeric 2-iminothiazoline-4-carboxylyl/2-aminothiazolidine-4-carboxylyl (itcCys) N-terminal peptides exclusively, consistent with prior model peptide/protein studies showing that under basic conditions internal S-cyanylated-Cys residues cyclize with concomitant release of the upstream peptide. The most readily detectable reaction of CN with purified HSA was at Cys34, the only Cys of the 35 present not connected as internal cystines. Because CN does not react with free sulfhydryl groups, it is probable that S-cyanylation at Cys34 occurs at those residues that carry GSH, Cys, or other small molecules as mixed disulfides. Relatively less detectable, modified Cys residues were also identified at positions 53, 124, 392, 477, and 487. When 14CN was added to human serum or whole blood at concentrations spanning a putative nontoxic to lethal range, stable adduct formation with HSA occurred in a linear, concentration-dependent reaction that was complete within 2 h. These attributes of the reaction, coupled with a plasma compartment location, suggest that quantitation of CN bound to HSA would provide a much more reliable assessment of exposure than does measurement of CN in blood.
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PMID:Cyanide adducts with human plasma proteins: albumin as a potential exposure surrogate. 1737 27

Since the accumulation of N(epsilon)-(carboxymethyl)lysine (CML), a major antigenic advanced glycation end product, is implicated in tissue disorders in hyperglycemia and inflammation, the identification of the pathway of CML formation will provide important information regarding the development of potential therapeutic strategies for these complications. The present study was designed to measure the effect of hypochlorous acid (HOCl) on CML formation from Amadori products. The incubation of glycated human serum albumin (glycated-HSA), a model of Amadori products, with HOCl led to CML formation, and an increasing HOCl concentration and decreasing pH, which mimics the formation of these products in inflammatory lesions. CML formation was also observed when glycated-HSA was incubated with activated neutrophils, and was completely inhibited in the presence of an HOCl scavenger. These data demonstrated that HOCl-mediated CML formation from Amadori products plays a role in CML formation and tissue damage at sites of inflammation.
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PMID:Hypochlorous acid generates N epsilon-(carboxymethyl)lysine from Amadori products. 1751 44

In continuation with our previous study using fluorescein-isothiocyanate (FITC)-Lys-Arg-Phe-Lys (KRFK) peptide, the aim of this work was to study the interaction of the unlabelled KRFK with calcium alginate gel microspheres coated with a serum albumin (HSA)-alginate membrane prepared using a transacylation method. Coated microspheres were prepared with two main sizes and two gel strengths. Control microspheres made of cross-linked alginate-HSA without calcium alginate gel were also prepared. A series of loading and release assays conducted with methylene blue showed the requirement of inner gel for binding the cationic molecule. Release experiments were performed in different media using unlabelled KRFK and coated microspheres. A plateau was reached within 1h, in contrast with the slow release of the FITC-peptide observed in our previous work. This discrepancy was attributed to modified properties of the labelled peptide. Adsorption assays of KRFK on coated microspheres were performed in the presence of growing concentrations of NaCl or imidazole. The ions were able to displace the peptide from the particles, which demonstrated ionic interactions, probably involving carboxylate groups of alginate. Adsorption isotherms showed that gel strength influenced affinity (4x10(5) L/mol or 8x10(5) L/mol for gelation with 5% or 20% CaCl(2), respectively). Binding site number doubled (from 2.6x10(-7) mol/mg to more than 5x10(-7) mol/mg) when microsphere size decreased from 450 microm to 100 microm. Binding sites were assumed to be located in the gel underneath the membrane.
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PMID:Serum albumin-alginate coated microspheres: role of the inner gel in binding and release of the KRFK peptide. 1883 44

SPE plays a crucial role in bioanalytical research. In the present work a novel fullerene(C60)-derivatised silica material is compared with octadecyl(C18) - and triaconthyl(C30)-silicas regarding recoveries of peptides and sequence coverage of HSA and fibrinogen digests. C30- and C60(30 nm)-SPE materials were found to be the two most prominent SPE materials. At low peptide concentrations C60-material prepared from a silica gel with a pore size of 30 nm has proven to be the best material with regards to recoveries. By increasing the amount of loaded peptides recoveries decrease due to its relative low binding capacity in contrast to C30-silica particles, showing no changes. The best sequence coverages of Aalpha- and Bbeta-chains of 20 pmol fibrinogen digest can also be achieved using these two SPE materials, C60 (30 nm) demonstrates an outstanding value of sequence coverage (62.15%) achieved for the gamma-chain. After nonenzymatic glycation the digests of fibrinogen and HSA were also separated. This makes the detection of a considerably higher number of glycated peptides possible compared to the unfractionated digests and the use of boronate affinity chromatography in the case of fibrinogen. For HSA, ten new sites of glycation at lysine and arginine residues have been explored. Using the detailed SPE/off-line MALDI method the glycation sites on fibrinogen are first described in this paper.
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PMID:Use of fullerene-, octadecyl-, and triaconthyl silica for solid phase extraction of tryptic peptides obtained from unmodified and in vitro glycated human serum albumin and fibrinogen. 1915 33

The acid induced unfolding of HSA (Human Serum Albumin) was studied using UV-difference spectroscopy, fluorescence spectroscopy and far-UV CD spectroscopy. In UV-difference spectroscopy, the molar extinction coefficient decreased from N state to F state. Partially buried Tyr residues are transferred from a medium of high polarizability (native N state) to a medium of low polarizability (F state). This is followed by loss of two electrostatic interactions Lys 205-Glu 465 and Arg218-Asp451 or one electrostatic interaction Lys205-Glu 465/Arg218-Asp451 and one buried carboxyl group of acidic amino acid. Similarly, UV-difference spectroscopy showed a decrease in absorbance in F<-->E transition due to exposure of completely buried tyrosine residues from medium of high polarizability (F state) to a medium of low polarizability (E state). This is also followed by loss of one electrostatic interaction out of three electrostatic interactions namely, Asp187-Lys432, Asp187-Lys521 and Lys190-Glu425. The tryptophanyl fluorescence spectra showed that the N<-->F transition is accompanied by a decrease in fluorescence intensity. This implies that there is partial exposure of Trp214 to aqueous environment. Consequently, there is a loss of two electrostatic interactions Lys 205-Glu 465 and Arg218-Asp451 or one electrostatic interaction Lys205-Glu 465/Arg218-Asp451 and one buried carboxyl group of acidic amino acid in N<-->F transition. The tryptophanyl fluorescence spectroscopy also showed that partially exposed Trp214 residue becomes nearly completely exposed in F<-->E transition. This is also followed by loss of two electrostatic interactions out of three Asp 187-Lys432,Asp187-Arg521 and Lys190-Glu425 in F<-->E transition. Taken together, these results showed that in N<-->F and F<-->E transitions a different number of electrostatic interaction is detected by different techniques. Secondly, in both N<-->F and F<-->E transitions, chromophoric groups are exposed first to aqueous environment and this is followed by loss of electrostatic interactions.
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PMID:Studies on the acid induced unfolding of human serum albumin. 1927 49

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