UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of cell-surface Schiff base-forming ligands in the inductive interaction between class II+ APC and murine T cells was investigated. Schiff bases are produced by the condensation of an amine with the carbonyl group of an aldehyde or ketone in a reversible covalent reaction. Treatment of APC with low concentrations of glutaraldehyde to form Schiff bases on a small proportion of epsilon-amino groups consistently inhibited Ag presentation to primary T cells and T cell clones. Schiff base formation by glutaraldehyde was quantitated by specific reduction with the weak, selective reducing agent sodium cyanoborohydride. Aldehyde inhibition of presentation was observed with allo-, protein, and small peptide Ag, and T cell clones of Th1 and Th2 subtypes were equally susceptible. Large increases in the concentration of glutaraldehyde in brief pretreatments of APC resulted in substantial restoration of Ag-presenting function. Oxidation of T cell sialic acid to produce cell-surface aldehydes resulted in a vigorous proliferative response to class II-positive syngeneic accessory cells. This response was inhibited by preformation of Schiff bases on epsilon-amino groups of the accessory cells by glutaraldehyde. Dose response curves for inhibition of aldehyde-induced and Ag-induced T cell proliferation by glutaraldehyde treatment of accessory cells were similar. Reduction of constitutive aldehydes on cloned T cells by sodium borohydride resulted in inhibition of Ag-specific responses. This took the form of a substantial delay in the time-course of the response consistent with the eventual regeneration of cell-surface aldehydes. Only the presentation of Ag was inhibited. Ongoing established proliferative responses remained unaffected. Together, these data indicate that constitutive Schiff base-forming ligands on APC and T cells are essential in Ag presentation to murine T cells and are consistent with a model of Ag presentation in which reciprocal Schiff base formation is an essential element.
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PMID:An essential role for constitutive Schiff base-forming ligands in antigen presentation to murine T cell clones. 213 72

After short term culture (2 to 3 days), Langerhans cells (LC) exhibit increased class II MHC Ag and become more potent APC than freshly obtained LC in primary allogeneic and syngeneic T cell activation. To determine whether in vivo LC undergo changes similar to cultured LC, we examined the phenotypic and functional characteristics of LC harvested from ear skin of naive mice painted with various haptens and primary irritants. At 24 h after application of 3% trinitrochlorobenzene, LC appear larger and exhibit more intense staining in epidermal sheets using anti-I-A antibodies, and there was a two- to threefold increase in I-A and I-E expression by LC using flow microfluorimetry analysis. CD45 Ag expression was not altered. Flow microfluorimetry profiles showed the presence of two different LC populations based on fluorescence intensity, i.e., one with the same Ia density as nontreated LC and the other (representing 22 to 50% of all LC) with a markedly enhanced Ia density, (i.e., a 10-fold increase in I-A and I-E). This phenotypic change was observed only with haptens, such as trinitrochlorobenzene, dinitrofluorobenzene, oxazolone, and cinnamic aldehyde. In contrast, application of 10 to 30% sodium lauryl sulfate or vehicle controls did not induce this change. Functionally, LC obtained from hapten-painted mice induced a two- to fivefold increase in 3[H]-TdR incorporation by syngeneic or allogeneic T cells, compared to equal numbers of LC from nontreated or vehicle-treated or sodium lauryl sulfate-treated mice. These phenotypic and functional changes that occur in vivo are therefore analogous to those seen when LC are cultured for short periods of time. Thus, activated LC appear in vivo in response to the epicutaneous application of haptens and may represent an essential step in hapten-specific sensitization.
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PMID:Phenotypic and functional characteristics of in vivo-activated Langerhans cells. 217 May 24

The effect of pH on functional association of peptide antigens with APC membranes was investigated by using aldehyde-fixed B cells and class II-restricted T cell hybridomas to assess antigen/MHC complex formation. The results indicated that the rate and extent of functional peptide binding was markedly increased at pH 5.0 as compared with pH 7.3. The pH dependence of binding was preserved after pretreatment of fixed APC with pH 5.0 buffer, suggesting that pH had a direct effect on the interaction of peptide with the APC membrane. Similar results were obtained by using several peptides and I-Ad- and I-Ed-restricted T cells, indicating that pH may be of general importance in regulating the formation of functional antigen/class II MHC complexes.
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PMID:Regulation of antigen presentation by acidic pH. 233 37

Three human T cell lines specific for the A loop of beef insulin were studied to determine the requirements for Ag processing. The data show that the conformation of the A loop of insulin is required for recognition and that the B chain of insulin per se is not necessary for this response. Processing of native insulin was required for responses of all three T cell lines; however, each displayed a different pattern of sensitivity to inhibition of processing and aldehyde fixation of APC. A peptide comprised of two disulfide-linked A chains was partially stimulatory when presented by fixed APC whereas A chain monomers and disulfide-linked A and B chain peptides were not. The response to native insulin, peptides, and A chain dimers was sensitive to chloroquine suggesting that none of these moieties is the terminal processed peptide recognized by insulin immune T cells. The unique patterns of fine specificity, processing requirements, and recognition of aldehyde-fixed antigen-MHC for each T cell line suggest the hypothesis that Ag processing leads to heterogeneity of the T cell repertoire for a single epitope of insulin.
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PMID:Antigen processing and the human T cell receptor repertoire for insulin. 246 May 29

The inductive interaction between class II+ APC and Th cell was investigated in a human system at the chemical level. The study set out to test the predictions of a model of Ag presentation in which epsilon-amino groups and carbonyl groups at the surface of APC and T cell react covalently to form reversible intercellular Schiff bases. In the experimental system of oxidative mitogenesis this process results in T cell activation. If oxidative mitogenesis is an experimental amplification of a physiologic process, and intercellular Schiff base formation is essential in Ag presentation, then it should be possible to inhibit Ag presentation by prior formation of Schiff bases on the surface of participating cells. In this situation Ag-induced T cell activation and T cell activation induced by periodate oxidation should invariably behave in the same way. It should also be possible to demonstrate Schiff base formation occurring between accessory cells and lymphocytes directly and definitively by means of specific reduction with sodium cyanoborohydride. Aldehyde treatment of accessory cells should prevent this intercellular Schiff base formation. In this study the following observations were made. 1) Both Ag-specific and periodate-induced T cell activation were inhibited by aldehyde treatment of class II+ accessory cells. 2) Noncross-linking donors of carbonyl groups other than aldehydes inhibited Ag-specific T cell activation. 3) Brief, low-dose treatment of T cells with aldehydes inhibited Ag-dependent T-cell activation. 4) Exogenous amino groups in the form of lysine and other amino acids inhibited both Ag-specific and periodate-induced T-cell activation. 5) The weak reducing agent sodium cyanoborohydride which is specific for Schiff bases at neutral pH inhibited both Ag-induced and periodate-induced T cell activation. Responses to PHA were markedly prolonged by this reagent. 6) Schiff base formation occurring between accessory cells and lymphocytes was detected directly and definitively by means of radiolabeling with NaCNB(3H)3 at neutral pH. These data are consistent with the view that the formation of reversible covalent Schiff bases between ligands on APC and T cell is an essential process in Ag-induced T cell activation.
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PMID:Evidence for an intercellular covalent reaction essential in antigen-specific T cell activation. 247

The fluorescent alpha-parinaric acid (alpha-PAC) and beta-parinaric acid (beta-PAC) were converted to the corresponding aldehydes and alcohols all of which exhibited absorption and fluorescence properties closely resembling those of the parent acids. alpha-PAC and beta-PAC each binds to luciferase in competition with aldehyde. The hydrophobic nature of the aldehyde site was indicated by the enhanced fluorescence quantum yields of the bound alpha-PAC and beta-PAC. These two polyene acids and the beta-parinaryl alcohol were shown to stabilize the luciferase flavin-peroxide intermediate. alpha-Parinaraldehyde (alpha-PAD) and beta-parainaraldehyde (beta-PAD) were active substrates for Vibrio harveyi and Vibrio fischeri luciferases and, for the former enzyme, exhibited Km values similar to and quantum yields about 20-30% as those for decanal and dodecanal. For the V. harveyi luciferase with reduced FMN as a co-substrate, the alpha-PAD- or beta-PAD-initiated luminescence was indistinguishable from the normal emission obtained with octanal (lambda max 495 nm) showing no additional 430-nm component correlatable with emission from excited alpha-PAC or beta-PAC. In reactions using reduced 2-thioFMN for V. harveyi luciferase or reduced FMN for V. fischeri luciferase plus yellow fluorescent protein, the replacement of octanal by beta-PAD again resulted in no additional 430-nm emission. The lack of any emission correlatable with excited alpha-PAC, beta-PAC, or equivalent carbonyl product was not due to the quenching of the polyene moiety by chemical transformation, binding to luciferase, or a 100% energy transfer to the flavin 4a-hydroxide emitter.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Fluorescent polyene aliphatics as spectroscopic and mechanistic probes for bacterial luciferase: evidence against carbonyl product from aldehyde as the primary excited species. 845 3

The homotetrameric pyruvate decarboxylase (PDC) from Zymomonas mobilis requires the cofactors thiamin diphosphate and Mg2+ for catalytic activity. We have investigated the role of various amino acid residues in the direct environment of the active site. The role of residue E473 in the catalytic activity and stability of the enzyme was probed by several mutations. All mutant enzymes were either inactive or failed to give any recombinant protein. The close interaction of E473 and N482, which can be deduced from the X-ray structure, has been probed by mutagenesis of N482 to D. This mutation has a significant influence especially on the carboligation reaction of PDC, whereas the binding of the cofactors and the thermostability were not affected. These data suggest a specific interaction of N482 and EA73 which is essential for coordinating the second aldehyde molecule during carboligation. Three hydrophobic residues (L112, I472 and I476) in the vicinity of the active centre have been investigated with respect to their potential influence on the transition states during catalysis. In contrast to L112, I472 and I476 influence the decarboxylation and carboligation reactions. The enlarged substrate-binding site of PDCI472A allows the decarboxylation of longer aliphatic 2-keto acids (C4-C6) as well as aromatic 2-keto acids besides pyruvate. Carboligations using PDCI472A as a catalyst yielded 2-hydroxypropiophenone, benzoin and phenylacetylcarbinol. The enantioselectivity of PAC formation is impaired by mutations of both I472 and I476. The stereochemistry is most significantly affected with the mutant enzyme PDCI476E, which catalyses predominantly the synthesis of (S)-phenylacetylcarbinol.
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PMID:Active site mutants of pyruvate decarboxylase from Zymomonas mobilis--a site-directed mutagenesis study of L112, I472, I476, E473, and N482. 983 41

A method with parallel extraction columns and parallel analytical columns (PEC-PAC) for on-line high-flow liquid chromatography/tandem mass spectrometry (LC/MS/MS) was developed and validated for simultaneous quantification of a drug candidate and its six metabolites in dog plasma. Two on-line extraction columns were used in parallel for sample extraction and two analytical columns were used in parallel for separation and analysis. The plasma samples, after addition of an internal standard solution, were directly injected onto the PEC-PAC system for purification and analysis. This method allowed the use of one of the extraction columns for analyte purification while the other was being equilibrated. Similarly, one of the analytical columns was employed to separate the analytes while the other was undergoing equilibration. Therefore, the time needed for re-conditioning both extraction and analytical columns was not added to the total analysis time, which resulted in a shorter run time and higher throughput. Moreover, the on-line column extraction LC/MS/MS method made it possible to extract and analyze all seven analytes simultaneously with good precision and accuracy despite their chemical class diversity that included primary, secondary and tertiary amines, an alcohol, an aldehyde and a carboxylic acid. The method was validated with the standard curve ranging from 5.00 to 5000 ng/mL. The intra- and inter-day precision was no more than 8% CV and the assay accuracy was between 95 and 107%.
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PMID:Parallel extraction columns and parallel analytical columns coupled with liquid chromatography/tandem mass spectrometry for on-line simultaneous quantification of a drug candidate and its six metabolites in dog plasma. 1174 78

(R)-Phenylacetylcarbinol [(R)-PAC)] is the chiral precursor for the production of the pharmaceuticals ephedrine and pseudoephedrine. Reaction conditions were improved to achieve increased (R)-PAC levels in a simple batch biotransformation of benzaldehyde emulsions and pyruvate, using partially purified pyruvate decarboxylase (PDC) from the filamentous fungus Rhizopus javanicus NRRL 13161 as the catalyst. Lowering the temperature from 23 degrees C to 6 degrees C decreased initial rates but increased final (R)-PAC concentrations. Addition of ethanol, which increases benzaldehyde solubility, was not beneficial for (R)-PAC production. It was established that proton uptake during biotransformation increases the pH above 7 thereby limiting (R)-PAC production. For small-scale studies, biotransformations were buffered with 2-2.5 M MOPS (initial pH 6.5). High concentrations of MOPS as well as some alcohols and KCl stabilised PDC. A balance between PDC and substrate concentrations was determined with regards to ( R)-PAC production and yields on enzyme and substrates. R. javanicus PDC (7.4 U/ml) produced 50.6 g/l (337 mM) ( R)-PAC in 29 h at 6 degrees C with initial 400 mM benzaldehyde and 600 mM pyruvate. Molar yields on consumed benzaldehyde and pyruvate were 97% and 59%, respectively, with 17% pyruvate degraded and 24% converted into acetaldehyde and acetoin; 43% PDC activity remained, indicating reasonable enzyme stability at high substrate and product concentrations.
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PMID:Enzymatic (R)-phenylacetylcarbinol production in benzaldehyde emulsions. 1238 47

The current model for the neuronal control of catecholamine release from piscine chromaffin cells advocates that the neurotransmitters vasoactive intestinal polypeptide (VIP) and pituitary adenylate cyclase-activating polypeptide (PACAP) are co-released with acetylcholine from preganglionic fibres upon nerve stimulation. Both VIP and PACAP elicit the secretion of exclusively adrenaline from rainbow trout chromaffin cells, which presumably arises from the activation of VPAC type receptors. Thus, the goals of the present study were (1) to localise VPAC receptors in the chromaffin cell fraction of the posterior cardinal vein (PCV) of trout and (2) to test the hypothesis that the selective secretion of adrenaline elicited by VIP could be explained by the absence of the VPAC receptors from the noradrenaline-containing cells. Fluorescent labelling of chromaffin cells using aldehyde-induced fluorescence of catecholamines and antisera raised against dopamine beta-hydroxylase (DbetaH) revealed a distinct layer of chromaffin cells lining the walls of the PCV. Furthermore, specific VIP-binding sites were demonstrated on chromaffin cells using a biotinylated VIP that was previously established as being bioactive. Although multiple labelling experiments revealed that a number of DbetaH-positive cells were immunonegative for phenylethanolamine N-methyl transferase (PNMT; noradrenaline-containing cells versus adrenaline-containing cells, respectively), labelling of VIP-binding sites was similar to that of DbetaH labelling, suggesting that all chromaffin cells possess VIP-binding sites. Pharmacological assessment of the VIP-binding sites indicated that they exhibited characteristics of VPAC receptors. Specifically, the labelling of VIP-binding sites was prevented after pre-treatment of PCV tissue sections with unlabelled VIP, PACAP or the specific VPAC receptor antagonist VIP 6-28. By contrast, sections pre-treated with the PAC(1) receptor blocker PACAP 6-27 displayed normal labelling of VIP-binding sites. Finally, partial cDNA clones for the trout VPAC(1) and VPAC(2) receptor were obtained and sequenced. Tissue distribution experiments using RT-PCR revealed the presence of VPAC(1) receptor mRNA but not that of the VPAC(2) receptor in the PCV tissue. The results provide direct evidence that VIP and PACAP can elicit the secretion of adrenaline from the chromaffin tissue via specific VIP-binding sites that exhibit properties of VPAC receptors. However, the selective secretion of adrenaline by VIP or PACAP cannot be explained by a lack of VIP-binding sites on the noradrenaline-containing cells.
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PMID:Localisation of VIP-binding sites exhibiting properties of VPAC receptors in chromaffin cells of rainbow trout (Oncorhynchus mykiss). 1272 13

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