Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033036 (APC)
 10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The monoclonal antibody PAC 1 (postsynaptic density and cytoskeleton enriched) recognizes an epitope present on two postsynaptic density-enriched glycoproteins of 130,000 (postsynaptic density-enriched glycoprotein 130) and 117,000 mol. wt (postsynaptic density-enriched glycoprotein 117), and a cytoskeleton-enriched polypeptide of 155,000 mol. wt (cp155). The PAC 1 antibody has been used to study the development of the PAC 1 antigens in the developing rat forebrain in vivo and in tissue culture. cp155 is detected by embryonic day 14 and its level continues to rise until the sixth postnatal week. Postsynaptic density-enriched glycoproteins 130 and 117 are also expressed in embryonic brain although the level of postsynaptic density-enriched glycoprotein 130 initially increases more rapidly than that of postsynaptic density-enriched glycoprotein 117. Peak values are observed at postnatal days 4 (postsynaptic density-enriched glycoprotein 117) and 9 (postsynaptic density-enriched glycoprotein 130). The level of post synaptic density-enriched glycoprotein 117 subsequently decreases to some 50% of the peak value by postnatal day 42. Immunocytochemical studies show that PAC 1 immunoreactivity in developing cerebral cortex, detectable by postnatal day 0, is primarily associated with the perikarya and dendrites of pyramidal cells. The immunoreactivity develops as patches of PAC 1-positive neurons, uniform staining of the cortex only being fully established after postnatal day 9. Double-immunofluorescence labelling studies of forebrain cultures prepared from embryonic day 18 animals shows that many, but not all, growth-associated protein 43-positive neurons exhibit PAC 1 immunoreactivity. Some non-neuronal cells also stain with the PAC 1 monoclonal antibody. The growth cones of cultured neurons exhibit PAC 1 immunoreactivity and the PAC 1 antigens are detected on immunodeveloped western blots of isolated growth cones. The PAC 1 epitope is intracellular, but immunoreactivity does not co-localize with F-actin as detected by rhod-amine-phalloidin or with tubulin immunoreactivity. Postsynaptic density-enriched glycoprotein 130 is readily detected on PAC 1 immunodeveloped western blots of forebrain cultures maintained for up to 14 days in vitro. Postsynaptic density-enriched glycoprotein 117 is only poorly expressed by these cultures. The PAC 1 glycoproteins are present in forebrain synaptic membranes and postsynaptic densities at an early stage of development. The synaptic membrane level of postsynaptic density-enriched glycoprotein 130 and postsynaptic density-enriched glycoprotein 117 increases markedly between postnatal days 3 and 8. The level of both glycoproteins detected in postsynaptic densities remain virtually constant from postnatal days 9-90. These results are consistent with functional roles for these molecules in neuronal and synapse development.
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PMID:Expression of PAC 1, an epitope associated with two synapse-enriched glycoproteins and a neuronal cytoskeleton-associated polypeptide in developing forebrain neurons. 751

We have previously described a monoclonal antibody, PAC 1, that recognises two postsynaptic density (PSD)-enriched glycoproteins (pgps) of apparent M(r) 130,000 (pgp130) and 117,000 (pgp117). Immunodevelopment of western blots of rat forebrain homogenate, synaptic membrane (SM), and PSD samples with PAC 1 and an N-cadherin antiserum shows that pgp130 and N-cadherin are of identical apparent M(r) and show identical patterns of enrichment in these fractions. The apparent molecular masses of pgp130 and N-cadherin are both lowered by 11 kDa following removal of N-linked carbohydrate with endoglycosidase-F containing N-glycopeptidase. The two molecules show an identical pattern of migration when separated by two-dimensional electrophoresis. A single 130-kDa band immunoprecipitated from solubilised PSD preparations by the N-cadherin antiserum is recognised by PAC 1 on western blots. We conclude that pgp130 is N-cadherin. Development of western blots of two-dimensional gel separations of SM and PSD glycoproteins shows that N-cadherin is a major glycoprotein component of PSDs. The immunoprecipitation experiments show that the M(r) of N-cadherin is greater than that of the major pgp, PSD gp116. The PAC 1 antibody recognises two concanavalin A-binding glycoproteins with apparent molecular masses of 136 and 127 kDa in liver samples. The 136-kDa band is also recognised by the N-cadherin antiserum. These observations, together with data showing that the PAC 1 epitope is intracellular, suggest that PAC 1 is a pan-cadherin antibody and recognises an epitope on the conserved cadherin intracellular carboxyl-terminal domain.
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PMID:N-cadherin is a major glycoprotein component of isolated rat forebrain postsynaptic densities. 772 14

Cytotoxic T cells were induced in vivo by immunizing C57BL/6 mice with a single dose of a short synthetic peptide representing amino acid residues 497-507 from HSV-1 glycoprotein B. Primed lymph node cells did not require in vitro boosting with peptide and APC for CTL detection. The CTL were CD8+ and H-2b restricted. They were capable of lysing target cells exogenously sensitized with peptide or endogenously processed glycoprotein B. Virus-primed CTL produced an anamnestic response in vivo upon peptide challenge, indicating that peptide-specific CTL may be relevant to infection. The requirement of CD4+ T cells for CD8+ CTL activation was investigated by depleting CD4+ cells in vivo with GK1.5 mAb. CD4+ T cell depletion did not abrogate CTL generation. These results suggest that glycoprotein B peptide 497-507 activates CD8+ CTL in vivo in a manner independent of CD4+ T cells. This is the first study in which a class I-restricted peptide derived from a HSV protein was used to activate CTL in vivo, and in which a synthetic peptide was shown to activate CTL independent of CD4+ T cell help. Our data are relevant to viral vaccine development and to processing and presentation of viral epitopes.
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PMID:Herpes simplex virus class I-restricted peptide induces cytotoxic T lymphocytes in vivo independent of CD4+ T cells. 809 12

The murine T cell surface molecules Ly-6C and Thy-1 are genetically and structurally distinct, yet they share two interesting properties: both are attached to the plasma membrane through a glycophosphatidylinositol linkage, and some mAb reactive with these molecules can activate T cells. Although mAb for Ly-6C and Thy-1 appear to mimic the function of physiologic ligands, direct evidence for the existence of these putative ligands has not been presented. In this report, we describe CTL clones that use Ly-6C and Thy-1 as accessory molecules for activation of cytolysis and the production of IFN-gamma based on inhibition of these functions with mAb. These studies were facilitated by the derivation of a nonactivating hamster IgM mAb specific for Ly-6C. CTL clones that use Ly-6C and Thy-1 as accessory molecules include a subpopulation of the previously described CD8+ alloreactive CTL that are not inhibited by mAb reactive with CD8, a CD8+ TCR-alpha/beta+ T cell clone specific for HSV glycoprotein D, and a CD4-CD8- TCR-gamma/delta+ T cell clone specific for HSV glycoprotein I. The role of Ly-6C and Thy-1 in target cell recognition is to some degree tissue-specific with respect to the APC/target cell. A mAb specific for Ly-6C appears to inhibit activation by prevention of adhesion between the effector cells and the target cells. This is the most direct evidence to date of a functional ligand for Ly-6C.
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PMID:Accessory molecules involved in antigen-mediated cytolysis and lymphokine production by cytotoxic T lymphocyte subsets. I. Identification of functions for the T cell surface molecules Ly-6C and Thy-1. 810 17

T cell responses to the variant surface glycoprotein (VSG) previously have not been detected in animals infected with the African trypanosomes despite the fact that such animals make strong T-dependent B cell responses to VSG molecules displayed by the parasites. In the present study, we have examined B 10.BR mice for VSG-specific Th cell responses at different times after infection with Trypanosoma brucei rhodesiense clone LouTat 1. T cell populations derived from different tissues were tested for their ability to proliferate and secrete cytokines when stimulated with purified LouTat 1 VSG. Furthermore, VSG-specific T cell lines and clones were derived from immunized mice and examined for their phenotypic and functional profiles in comparison with T cell responses of infected mice. The results of this study show that VSG-specific T cells were not consistently detected in the peripheral lymphoid tissues such as spleen or lymph nodes of infected animals. In contrast, VSG Ag-specific T cells were detectable principally in the peritoneal T cell populations of infected mice. Peritoneal T cells did not proliferate in response to VSG, yet produced substantial cytokine responses when stimulated; the cytokines produced were IFN-gamma and IL-2, without detectable IL-4. The cellular phenotype of VSG-responsive T cells was that of classical Th cells in that all cells were CD4-positive and expressed the CD3 alpha/beta TCR membrane complex. Thus, the VSG appears to preferentially stimulate a Th1 cell subset response during infection. Intrinsic molecular characteristics of the VSG molecule did not induce mice to make this response, however, since VSG-specific T cell lines derived from VSG-immunized mice displayed cytokine profiles characteristic of both Th1 and Th2 cells. Isolation of Th1 clones from selected lines demonstrated that these cells displayed the same membrane-phenotypic characteristics and cytokine profiles as the T cells from infected mice. Furthermore, all Th clones were VSG type-specific, APC-dependent, and I-Ak-restricted in their responses. In summary, these experiments provide the first direct evidence for VSG-specific responses at the T cell level. T cell responses to the VSG molecule during infection appear to be anatomically compartmentalized and exhibit evidence of clonal maturation (cytokine production) but not clonal expansion (proliferation) after antigenic stimulation. The cellular phenotype and cytokine profiles predict that infection predisposes the animals to mount Th1 cell subset responses to VSG. The results of this study, including the T clones generated, provide an experimental basis for examining the regulation of VSG-specific immune responses during infection.
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PMID:Characterization of T helper cell responses to the trypanosome variant surface glycoprotein. 845 63

To study MHC class II-dependent and -independent SAg2 activation and the relative importance of CD80/CD28 costimulation, staphylococcal enterotoxin A (SEA) was presented to T cells as a fusion protein containing the Fab fragment of an mAb directed against the CA215 glycoprotein. Chinese hamster ovary (CHO) cells transfected with HLA-DR4, CA215, and CD80, individually or in combinations, were used as presenting cells. A strong T cell proliferation was obtained when C215Fab-SEA fusion proteins were presented by CHO-DR/CD80 or CHO-CA215/CD80 double transfectants, whereas only low levels of proliferation were seen in the absence of CD80. Large amounts of IL-2, IFN-gamma, and TNF were produced in addition to an increase in IL-2 mRNA as a result of CD80 costimulation. Only approximately 50% of the SEA-reactive T cells responded by expression of IL-2 receptor chains and by blast formation when activated with SEA in the absence of MHC class II. Reverse transcription-PCR-assisted repertoire analysis of SEA-reactive TCR V beta families showed that the CA215-dependent activation involved an expansion of fewer TCR V beta families compared with MHC class II-dependent activation. One-half of the six analyzed TCR V beta families were expanded independently of class II. This indicates that MHC class II has only a partial influence on the TCR V beta repertoire imprinted by SAg. This finding redefines the role of MHC class II in SAg presentation. It is suggested that MHC class II molecules are selected as SAg-binding molecules mainly as a suitable targeting receptor for professional APC expressing costimulatory molecules such as CD80 and CD86.
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PMID:Regulation of superantigen-induced T cell activation in the absence and the presence of MHC class II. 881 90

Germline mutations of the APC (adenomatous polyposis coli) gene lead to multiple intestinal tumors in familial adenomatous polyposis patients and in Min (multiple intestinal neoplasia) mice. Consequently, these mice provide an excellent model for familial colon cancer. We have identified an Mr approx. 66 kDa glycoprotein which is preferentially expressed at the cell surface of cell lines established from chemically induced rat colon carcinomas. Cloning of the corresponding Tage4 cDNA has revealed that this protein contains the conserved amino acids characteristic of members of the immunoglobulin gene superfamily. Here, we analyze expression of the mouse Tage4 gene in Min mouse intestinal adenomas. RT-PCR analysis allowed us to detect expression of this gene in all the mouse adenomas tested. In contrast, lower levels of Tage4 mRNA were found in the intestinal tract and barely detectable levels in other tissues of normal mice. Furthermore, Tage4 mRNA was detected in a series of mouse intestinal adenomas by in situ hybridization. A strong signal was seen in the samples analyzed.
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PMID:Over-expression of a novel member of the immunoglobulin superfamily in Min mouse intestinal adenomas. 898 Jan 89

Dendritic cells (DC) are potent APC that, in mature form, can be distinguished from other mononuclear cells on the basis of their distinct morphology, absence of lineage markers, and dense expression of MHC and costimulatory molecules. While comparing different DC preparation methods, we observed that DC derived from cultured PBMC that had been depleted of CD2+ cells before culture were functionally distinct from DC derived from PBMC that had not been depleted of CD2+ cells. Thus, both types of DC stimulated allogeneic T cells to proliferate in the MLR, but only DC derived from CD2+ precursors could sensitize naive T cells to soluble Ags such as keyhole limpet hemocyanin and HIV gp160 glycoprotein. Subsequent studies confirmed the existence of CD2+ and CD2- DC precursor populations among HLA-DRbright, lineage-negative PBMC. Immediately after their isolation, these populations were morphologically similar to one another by light and electron microscopy, and neither had substantial Ag-presenting activity. After culture for 24 to 48 h with supernatant from PHA-activated PBMC, both populations developed dendrites, formed clusters with T cells, and stimulated allogeneic T cell responses in the MLR as well as autologous T cell responses to tetanus toxoid, a recall Ag. However, CD2+ DC precursors alone gave rise to APC that presented soluble Ags to naive CD4+ T cells, a property that could be inhibited by Abs to CD4, CD11a, and CD28 on T cells or CD86 on DC. The expression of CD54 and CD86 on CD2+ DC precursors was increased markedly after their culture and differentiation, while the expression of these molecules on CD2- DC precursors was not remarkably changed. These findings reveal the existence of two functionally distinct populations of DC, each derived from a phenotypically distinct precursor present in monocyte-depleted peripheral blood.
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PMID:Dendritic cells that process and present nominal antigens to naive T lymphocytes are derived from CD2+ precursors. 903 58

4-1BB ligand (4-1BBL) is a member of the TNF family expressed on activated APC. 4-1BBL binds to 4-1BB (CD137) on activated CD4 and CD8 T cells and in conjunction with strong signals through the TCR provides a CD28-independent costimulatory signal leading to high level IL-2 production by primary resting T cells. Here we report the immunological characterization of mice lacking 4-1BBL and of mice lacking both 4-1BBL and CD28. 4-1BBL-/- mice mount neutralizing IgM and IgG responses to vesicular stomatitis virus that are indistinguishable from those of wild-type mice. 4-1BBL-/- mice show unimpaired CTL responses to lymphocytic choriomeningitis virus (LCMV) and exhibit normal skin allograft rejection but have a weaker CTL response to influenza virus than wild-type mice. 4-1BBL-/-CD28-/- mice retain the CTL response to LCMV, respond poorly to influenza virus, and exhibit a delay in skin allograft rejection. In agreement with these in vivo results, allogeneic CTL responses of CD28-/- but not CD28+/+ T cells to 4-1BBL-expressing APC are substantially inhibited by soluble 4-1BB receptor as is the in vitro secondary response of CD28+ T cells to influenza virus peptides. TCR-transgenic CD28-/- LCMV glycoprotein-specific T cells are insensitive to the presence of 4-1BBL when a wild-type peptide is used, but the response to a weak agonist peptide is greatly augmented by the presence of 4-1BBL. These results further substantiate the idea that different immune responses vary in their dependence on costimulation and suggest a role for 4-1BBL in augmenting suboptimal CTL responses in vivo.
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PMID:Analysis of 4-1BB ligand (4-1BBL)-deficient mice and of mice lacking both 4-1BBL and CD28 reveals a role for 4-1BBL in skin allograft rejection and in the cytotoxic T cell response to influenza virus. 1052 84

MHC class I-restricted T cell epitopes lack immunogenicity unless aided by IFA or CFA. In an attempt to circumvent the known inflammatory side effects of IFA and CFA, we analyzed the ability of immunostimulatory CpG-DNA to act as an adjuvant for MHC class I-restricted peptide epitopes. Using the immunodominant CD8 T cell epitopes, SIINFEKL from OVA or KAVYNFATM (gp33) from lymphocytic choriomeningitis virus glycoprotein, we observed that CpG-DNA conveyed immunogenicity to these epitopes leading to primary induction of peptide-specific CTL. Furthermore, vaccination with the lymphocytic choriomeningitis virus gp33 peptide triggered not only CTL but also protective antiviral defense. We also showed that MHC class I-restricted peptides are constitutively presented by immature dendritic cells (DC) within the draining lymph nodes but failed to induce CTL responses. The use of CpG-DNA as an adjuvant, however, initiated peptide presenting immature DC progression to professional licensed APC. Activated DC induced cytolytic CD8 T cells in wild-type mice and also mice deficient of Th cells or CD40 ligand. CpG-DNA thus incites CTL responses toward MHC class I-restricted T cell epitopes in a Th cell-independent manner. Overall, these results provide new insights into CpG-DNA-mediated adjuvanticity and may influence future vaccination strategies for infectious and perhaps tumor diseases.
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PMID:CpG-DNA activates in vivo T cell epitope presenting dendritic cells to trigger protective antiviral cytotoxic T cell responses. 1067 72


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