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 CD4 glycoprotein, a member of the Ig super-family, has long been known to play an important role in the immunologic activation of Th cells. The precise manner in which CD4 participates in this activation process is not yet understood. In an attempt to further define its role in Th cell activation, we modeled the D1 domain of the murine CD4 protein (L3T4) based on the experimentally determined high resolution structure of the human CD4 protein. Because the D1 domain of CD4 strongly resembles the V kappa chain of an antibody, we addressed the question of whether the CDR-like regions of CD4 are also involved in mediating protein-protein interactions. Consequently, we used the modeled L3T4 structure as a template in the design of conformational mimics of the CDR3-like region (residues 86-94). Only the analog designed to mimic both the sequence and conformation of this region exhibited highly specific inhibition of CD4-dependent responses. Because the inhibitory activity could be localized to the Th cell itself, it appears that this analog acts by uncoupling a CD4 association (independent of an APC) critical to generating a proliferative response.
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PMID:Direct involvement of the CDR3-like domain of CD4 in T helper cell activation. 138 46

The results from a number of studies have documented that the HSV glycoprotein gD is an important target for neutralizing antibodies. In contrast, little is known about the Th cell determinants present on HSV that are required for anti HSV gD antibody production. In our study we have immunized BALB/c mice with a recombinant source of HSV-1 gD lacking the carboxyl-terminal 93 amino acids. T cell hybridomas produced from the immunized animals recognized a single antigenic peptide (amino acids 246-261) in the context of I-Ad. The determinant expressed by gD peptide 246-261 was generated and presented by both HSV-1 and HSV-2 infected APC. Fine specificity analysis using truncated synthetic gD peptides revealed that the minimal amino acids recognized by the T hybrids were identical between HSV-1 and HSV-2. In addition, the minimal peptide-I-Ad binding analysis demonstrated that the minimal peptide sequence required for the binding to I-Ad and for T cell recognition contained two prolines. Thus, this important HSV antigenic determinant would not be expected to form an amphipathic alpha-helix and could therefore be missed by algorithms currently used to predict which amino acid sequences would be antigenic based on the propensity to form helices.
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PMID:Identification of an HSV-1/HSV-2 cross-reactive T cell determinant. 169 79

Interphotoreceptor retinoid binding protein (IRBP) is a glycoprotein that localizes in the retina and induces inflammatory changes in this tissue in immunized animals. Certain IRBP-derived peptide determinants are also immunopathogenic, and we have previously shown that these determinants could be either immunodominant or cryptic. Lymphocytes sensitized against the cryptic peptides do not recognize whole IRBP in vitro, and yet these lymphocytes must recognize the protein in vivo to initiate the autoimmune pathogenic process. We have examined here two hypothetical explanations for this dissociation: 1) It is possible that when IRBP is processed in vitro, immunodominant peptide determinants compete with the cryptic ones and inhibit their interaction with the MHC molecules on the APC. This explanation was ruled out here by the finding that the immunodominant peptide 1179-1191 ("W10") did not inhibit the response to a cryptic one, 1158-1180 ("R4"), when added at equivalent and even moderately higher concentrations. 2) The second hypothesis proposes that the cryptic antigenic sites are not generated from IRBP by the APC in vitro, whereas enzymes in the retina digest the protein to yield fragments that generate these antigenic sites upon processing by the APC. In line with this hypothesis, we have found that cleavage of IRBP by certain endoproteinases (Asp-N, Glu-C, or V-8) produced molecules that were recognized in culture by lymphocytes sensitized to the immunopathogenic but cryptic peptide R4. This study, therefore, describes a putative Ag processing mechanism that results in IRBP recognition and, consequently, the initiation of an autoimmune process by lymphocytes sensitized against a cryptic peptide. Furthermore, experiments with R4 and other cryptic peptides have shown that cleavage fragments of up to 38 residues in length can be presented by APC, to stimulate lymphocytes sensitized against these peptides. No responses were stimulated, however, by fragments of 75 or more residues. The data thus provide new insights into the processing and presentation of cryptic peptide determinants by APC.
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PMID:Recognition of peptides that are immunopathogenic but cryptic. Mechanisms that allow lymphocytes sensitized against cryptic peptides to initiate pathogenic autoimmune processes. 170 61

A monoclonal antibody has been raised which recognizes an epitope, PAC 1 (postsynaptic density and cytoskeleton enriched), which is specifically associated with two novel glycoprotein components of forebrain postsynaptic density preparations and a novel neuronal cytoskeletal-associated polypeptide. The monoclonal antibody has been used to study the cellular and subcellular localization of these molecules and for the partial characterization of all three PAC 1 antigens in the rat. The PAC 1 epitope is present on two concanavalin A binding glycoproteins of apparent molecular weights 130,000 (pgp130) and 117,000 (pgp117). Both species are enriched in preparations of rat forebrain postsynaptic densities and to a lesser extent in synaptic membranes. The epitope is also expressed by a polypeptide of 155,000 mol. wt, cp155. This molecule is highly enriched in cytoskeleton rather than membrane preparations. Enzymic removal of N-linked carbohydrate lowers the molecular weights of the PAC 1 glycoproteins pgp130 and pgp117 by 11,000 and 14,000 respectively, and suggests that cp155 is not glycosylated. Detergent, alkaline and salt extractions of postsynaptic densities and synaptic membranes indicate that pgp130 and pgp117 are integral membrane glycoproteins and are tightly bound components of postsynaptic density preparations. Immunocytochemical studies of adult rat forebrain show prominent staining of pyramidal cell dendrites and perikarya. There is no evidence of glial staining. Electron microscope studies show staining of microtubules together with punctate deposits of plasma membrane-associated reaction product. Several criteria have been used to show that pgp130 and pgp117 do not correspond to other known neuronal glycoproteins of similar molecular weight. We conclude that the PAC 1 epitope is expressed by two novel synaptic glycoproteins which are very probably integral components of the postsynaptic density and by a novel neuronal cytoskeleton-associated protein.
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PMID:PAC 1: an epitope associated with two novel glycoprotein components of isolated postsynaptic densities and a novel cytoskeleton-associated polypeptide. 172 84

Artificial phospholipid bilayer vesicles were tested for their capacity to enhance the priming and the restimulation of mouse T cells against the haemagglutinin (H) glycoprotein of the measles virus in vivo and in vitro. H glycoprotein was purified and incorporated into liposomes made of cholesterol, dicetylphosphate and dilauroylphosphatidylcholine (DLPC) or distearoylphosphatidylcholine (DSPC). H in DLPC or DSPC-liposomes was found to be a potent in vivo stimulator of lymph node T cells harvested from mice immunized with measles virus, whereas H glycoprotein in free form did not elicit any proliferative T cell response. When used to immunize naive mice, only H in DSPC-liposomes was able to prime T cells as evidenced by the capacity of lymph node cells to proliferate in the presence of H in liposomes or measles virus as secondary stimulating agents in vitro. H-specific T cell clones derived from animals immunized with H in DSPC-liposomes were able to recognize H glycoprotein both in free form and incorporated into liposomes in the presence of naive spleen cells as APC. However, compared with the liposome forms, 20-fold more H protein in free form was required to elicit a T cell clone response at a similar level. This liposome immune enhancing effect on the T cell clone recognition of H glycoprotein was also observed when peritoneal exudate cells were used as APC. These data demonstrate that the insertion of a membrane-derived antigen into artificial membranes may be a prerequisite for the priming and stimulation of specific T cells both in vivo and in vitro. In addition, the nature of the phospholipid used to build the liposomes appears to be a critical parameter.
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PMID:Enhancement of in vivo and in vitro T cell response against measles virus haemagglutinin after its incorporation into liposomes: effect of the phospholipid composition. 187 18

The existence of saturable and specific binding sites for mouse P40/IL-9 was demonstrated on a variety of factor-dependent T cell lines derived from Th clones by long term culture in the presence of P40-containing T cell supernatants. Scatchard transformation of the data obtained with one such line was consistent with the existence of a single class of receptors with a Kd of approximately 100 pM and a density of 3000/cell. P40 binding to these cells was followed by rapid internalization of the ligand. P40-receptors (P40-R)3 were also found on certain Th clones maintained in conventional cultures, especially after stimulation with Ag and APC. Only T cell clones that proliferated in response to P40 showed significant levels of binding, suggesting that the regulation of P40-R expression is an important element in the control of P40-responsiveness. In accord with this idea, fresh T cells, cytolytic T cell clones and a wide variety of other cells including B cells and fibroblasts, which do not proliferate in response to P40, showed no significant binding. However, P40-R were not restricted to a few unusual Th clones. They were also detected on several T cell tumors, on macrophages and on mast cell lines. The latter point is of particular interest in view of the mast cell growth factor activity recently ascribed to P40. Cross-linking studies with T-cell lines and mast cells indicated that the P40-R consists of a 64-kDa glycoprotein, the molecular mass of which is reduced to 54 kDa on treatment with N-glycosidase F.
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PMID:Functional and biochemical characterization of mouse P40/IL-9 receptors. 214 61

CD4 (T4) is a 60 kD glycoprotein expressed on a subset of T lymphocytes. CD4 augments T cell responses to suboptimal Ag stimulation. In addition, the CD4 molecule is the receptor for HIV-1. CD4 is phosphorylated on serine residues within the cytoplasmic domain and its cell surface expression is decreased in response to PMA, APC bearing the appropriate Ag or HIV infection. The kinetics of CD4 phosphorylation and modulation are similar, suggesting that the two events may be related. L3T4, the murine CD4 equivalent, is not modulated from the surface of mature, peripheral T cells in response to PMA. The difference in the ability to modulate L3T4 and CD4 in response to PMA may be due to differences between the two molecules or to differences between the cells in which they are expressed. To further define the requirements for CD4 modulation, we used retroviral vectors to transfer the cDNA for CD4 and various mutants of CD4 into two murine T cell hybridomas that express L3T4. One of these hybridomas, By155.16, does not modulate L3T4 in response to PMA and the other, 5D5.63, does modulate L3T4 in response to PMA. When expressed by these hybridomas CD4 is not modulated from the surface of By155.16 and is modulated from the surface of 5D5.63 in response to PMA. In both of these hybridomas, CD4 is phosphorylated on serine residues in response to PMA. A mutant form of CD4, CD4 delta, was constructed in which the majority of the cytoplasmic domain was deleted. When expressed in 5D5.63, CD4 delta was not modulated in response to PMA. Replacing the cytoplasmic domain of CD4 with that of the human IL-2 receptor did not reconstitute the ability of CD4 to be modulated. These results suggest that the inability to modulate L3T4 from the surface of murine peripheral T cells is due to features of the cell and not the molecule. Furthermore, the cytoplasmic domain of CD4 is required for its modulation from the cell surface in response to PMA.
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PMID:Requirements for modulation of the CD4 molecule in response to phorbol myristate acetate. Role of the cytoplasmic domain. 278 43

The contribution of viral infectivity to the expression of MHC class II-restricted T cell determinants was studied. A murine I-Ed-restricted T cell hybridoma recognizing the neuraminidase (NA) glycoprotein of influenza PR8 virus was stimulated strongly by infectious virus but failed to recognize antigen introduced on noninfectious virions. Recognition correlated with the de novo synthesis of viral NA within infected APC. The effectiveness of infectious virus did not depend strictly upon the amount of NA present in cultures, since high NA concentrations could be achieved by addition of nonreplicative virus without being stimulatory for NA-specific T cells. Recognition of a determinant generated only when synthesized in murine host cells was ruled out, since, in high concentration, NA isolated from purified egg-grown virions, even if reduced and alkylated, was recognized by the T hybridoma clone. Isolated NA was recognized when added to pre-fixed APC, suggesting that this form of antigen was able to bypass the usual processing pathway of exogenous proteins. Data suggest that endogenously synthesized antigen may contribute most significantly to presentation of labile T cell determinants. In addition to NA, recognition of an I-Ed-restricted determinant of the influenza hemagglutinin (HA) molecule, shown previously to have a relatively short half-life on APC surfaces, was enhanced greatly by infectious virus. In contrast, T cell recognition of a more stably expressed I-Ed-restricted site of the same HA polypeptide was only marginally improved on infected APC.
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PMID:Class II major histocompatibility complex-restricted T cells specific for a virion structural protein that do not recognize exogenous influenza virus. Evidence that presentation of labile T cell determinants is favored by endogenous antigen synthesis. 278 81

Th cell recognition of globular proteins requires the uptake and intracellular processing of the native Ag by an APC to produce a peptide fragment containing the T cell antigenic determinant, which is recognized in conjunction with Ia. This report describes the time course of the processing and presentation of a soluble globular protein Ag, pigeon cytochrome c (Pc), and of the presentation of a C-terminal peptide fragment of Pc, residues 81 to 104 (Pc 81-104), which does not require processing. Splenic B cells, acting as APC, require 6 to 8 h incubation with native Pc to process and present it to an I-Ek-restricted Pc-specific T cell hybrid, resulting in the secretion of IL-2. Moreover, the time required for B cells to process Pc is the same whether the Ag is taken up by nonspecific fluid phase pinocytosis or by binding to surface Ig. Once processed, Ag is lost from the B cell surface by 8 to 12 h, although when provided with fresh Pc, the same B cells are still capable of processing and presenting. In contrast to native Pc, only 1 to 2 h are required for the peptide fragment Pc 81-104 to become associated with B cells in a stimulatory fashion, and this time is similar for live and paraformaldehyde-fixed B cells, which cannot internalize or process the peptide. Washed free of excess peptide after 2 h, B cells lose their ability to stimulate T cells by 8 to 12 h, with a time course indistinguishable from that for the loss of processed native Pc. Prolonged incubation of B cells with the peptide for 18 to 24 h results in a dramatic loss of the ability to present Pc 81-104. Even when provided with fresh Pc or Pc 81-104, these cells have diminished ability to present these Ag. This loss is selective, inasmuch as these B cells remain equivalent to untreated B cells in the presentation of an unrelated Ag, OVA, to an I-Ak-restricted specific T cell. However, the ability to present another I-Ek-restricted antigenic peptide of the D glycoprotein of HSV to its specific T cell is also diminished. Loss of activity is observed after incubation only with the peptide and not with the native protein and is not due to a depletion of the antigenic peptide from the incubation medium.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Time dependence of B cell processing and presentation of peptide and native protein antigens. 283 35

Three new potential biomarkers--PAC, PMA, and the 7E11-C5 glycoprotein--have been identified. All three have unique features that could augment current diagnostic and therapeutic modalities. Some of the important characteristics of these potential markers are summarized in Table 1. Further studies will be required to determine if any of them will provide clinical information beyond that provided by PSA and if they will have a significant impact on the management of patients with prostate cancer. The MAb 7E11-C5 (CYT-356), now in clinical trials, promises to offer new strategies for radioimmunodetection and radioimmunotherapy of prostate cancer.
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PMID:Biomolecular and clinical characteristics of PSA and other candidate prostate tumor markers. 750 67

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