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)

Bacterial enterotoxin superantigens bind directly to HLA class II molecules (HLA-DR) expressed on both APC and activated human T cells, and simultaneously bind to certain V beta chains of the TCR. In this report, we compared early T cell signaling events in human alloantigen-stimulated T cells when activated by HLA-DR ligation through antibody cross-linking or by direct enterotoxin superantigen binding. Both types of stimuli induced tyrosine phosphorylation of phosphatidylinositol-specific phospholipase C gamma 1 (PLC gamma 1) and an increase in intracellular calcium concentration; however, superantigen-induced signaling was stronger than class II ligation alone. Antibody-mediated ligation of HLA-DR with CD3 resulted in augmented PLC gamma 1 activation and increased calcium mobilization, consistent with a mechanism of superantigen activity through a combination of class II and CD3/Ti signals. In addition, down-modulation of CD3 receptors with antibody demonstrated that superantigen-induced signaling events were CD3-dependent. Superantigen signaling was also class II-dependent, in that resting T cells were not responsive to direct enterotoxin stimulation. To address how early signal transducing activity correlated with T cell responsiveness, alloantigen-primed T cells were activated with immobilized class II-specific mAb or soluble superantigen. Both HLA-DR mAb-stimulated T cells and enterotoxin-treated T cells proliferated strongly in response to co-stimulation by a combination of CD28 receptor engagement and PMA addition. In addition, superantigen-induced growth was induced by CD28 receptor ligation with antibody or the B7 counter-receptor expressed on Chinese hamster ovary cells. Taken together, these results indicate that class II molecules expressed on activated T cells are directly coupled to the PLC gamma 1 signal transduction pathway, and that coligation of HLA-DR with CD3 augments T cell signaling comparable to that induced by enterotoxin superantigen. Thus, we suggest that superantigen-induced early signaling responses in activated T cells may be due in part to class II transmembrane signals induced when HLA-DR and V beta are ligated in cis.
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PMID:Superantigen and HLA-DR ligation induce phospholipase-C gamma 1 activation in class II+ T cells. 138 26

The selective deficit in delayed hypersensitivity that characterizes anterior chamber-associated immune deviation (ACAID) is the direct result of a blood borne, Ag-specific, cell-associated signal that is created after Ag is injected into the anterior chamber of the eye of normal mice. The cells that carry this signal via the blood to the spleen express the mature macrophage marker F4/80 and are similar to, or perhaps even arise from, F4/80+ dendritic cells found within the stroma of normal iris and ciliary body. We have recently reported that ACAID-inducing properties can be conferred upon conventional F4/80-bearing macrophages harvested from the normal peritoneal cavity by incubating these cells in vitro with the soluble protein Ag, BSA, in the presence of supernatants harvested from cultured iris and ciliary body cells. Using this in vitro induction system, we have examined the limiting conditions for conferring ACAID-inducing potential on peritoneal exudate cells. We have found that an ACAID-inducing signal can be created in vitro with several different soluble Ag, including the retinal autoantigen-interphotoreceptor retinol binding protein, and that active endocytosis and processing by peritoneal exudate cells is required because chloroquine prevents these cells from acquiring ACAID-inducing properties. In addition, we have determined that for supernatant-treated peritoneal macrophages to induce ACAID to soluble Ag the cells must be 1) alive, 2) injected i.v. or i.p. (but not s.c.), and 3) administered to recipients with an anatomically intact spleen. When these conditions are met, as few as 20 F4/80+ macrophages pulsed with Ag in the presence of iris and ciliary body supernatants are sufficient to induce ACAID. Macrophage hybridomas derived from "conventional" APC can acquire ACAID-inducing potential in vitro if exposed to iris and ciliary body supernatants, whereas macrophage hybridomas derived from "suppressor inducer" APC constitutively possess ACAID-induced potential. Peritoneal macrophages that were endowed with ACAID-inducing properties by in vitro exposure to supernatants were found to elicit splenic suppressor cells similar to those found in spleens of mice with ACAID. Moreover, the expression of experimental autoimmune uveitis in mice immunized with interphotoreceptor retinol binding protein was significantly suppressed if the animals were pretreated with peritoneal exudate cells pulsed with this Ag in the presence of iris and ciliary body supernatants.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Analysis of an in vitro-generated signal that induces systemic immune deviation similar to that elicited by antigen injected into the anterior chamber of the eye. 138 41

Intravenous administration of APC such as splenocytes loaded with a soluble protein Ag has been shown to prime for an Ag-specific CTL response. It is thought that the APC directly presents loaded Ag in a MHC-restricted manner. However, it is demonstrated in this study that allogeneic splenocytes, MHC-free RBC, and even synthetic lipid vesicles (liposomes) after loading with OVA can elicit an OVA-specific and MHC-restricted CTL response. Biodistribution studies of these Ag-associated vehicles showed that the liver, spleen, and lung were the major organs responsible to scavenge these carriers, suggesting that the monocyte-macrophage system was involved in the Ag presentation for CTL. Depletion of macrophages by a specific macrophage killer, Cl2MDP, containing liposomes, abolished the CTL induction by immunization with OVA Ag carried by these vehicles except the induction by syngeneic splenocytes. Thus, the syngeneic splenocytes present Ag directly to the T cells, but other membranous vehicles carry the Ag to the host APC including macrophages, which then present it to the T cells. These results indicate that formulation of an Ag in membranous/colloidal vehicles may be a way to prime for a CTL response.
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PMID:Induction of cytotoxic T lymphocytes in vivo with protein antigen entrapped in membranous vehicles. 138 44

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

Murine CD4+ T cells can be subdivided into naive and memory T cells based on surface phenotype, on recall response to Ag, and on differences in activation requirements. Furthermore, several studies have shown that two signals are required for CD4+ T cell activation; one signal is provided by occupancy of the TCR and the other signal is provided by the APC. In this report, analysis of naive and memory CD4 T cells, separated on the basis of CD45 isoform expression, has shown that their requirements for two signals differ. Activation of memory CD4 T cells to proliferate and secrete IL-2/IL-4 only required occupancy of the TCR complex, whereas activation of naive CD4 T cells required an APC-derived signal as well. Moreover, the signal induced by anti-CD3 antibodies differs from the signal provided by anti-V beta cross-linking of the TCR because both antibodies activate memory CD4 T cells but only anti-CD3 activates naive CD4 T cells. Together these data suggest that the consequence of stimulation through the TCR/CD3 signal complex differs between memory and naive CD4 T cells.
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PMID:Activation requirements for CD4+ T cells differing in CD45R expression. 138 89

Loss of heterozygosity occurring on various chromosomes has been described in the majority of human tumors. The targets of frequent or consistent subchromosomal deletions are believed to be tumor suppressor genes. We examined 72 esophageal tumors (46 squamous cell carcinomas and 26 adenocarcinomas) for loss of heterozygosity at the p53, Rb, APC, MCC, and DCC loci. Inclusion of these tumor suppressor genes in the allelic deletions was directly ascertained by performing polymerase chain reaction at polymorphic sites within the genes. Loss of heterozygosity occurred in 55% of informative cases at p53, in 48% of informative cases at Rb, in 66% at APC, in 63% at MCC, and in 24% at DCC. Ninety-three % of tumors informative at all loci (fully informative) lost heterozygosity of at least one locus. A high percentage of fully informative tumors (71%) also lost heterozygosity at more than one locus. There were no significant differences among histological types in the prevalence of loss of heterozygosity at any locus. There were correlations of losses involving MCC versus DCC, Rb, and p53. These data suggest that (a) allelic deletions including these tumor suppressor genes are important in the formation and/or progression of most esophageal cancers; (b) allelic deletions involving MCC may not occur independently of deletions involving other tumor suppressor genes; and (c) the accumulation of multiple allelic deletions involving specific tumor suppressor genes may be important in most esophageal tumorigenesis or tumor evolution.
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PMID:Loss of heterozygosity involves multiple tumor suppressor genes in human esophageal cancers. 142 99

The APC (adenomatous polyposis coli) gene is responsible for familial adenomatous polyposis and is also associated with the development of sporadic tumors of the colon and stomach. To investigate whether or not mutations of APC play any role in tumors arising in other organs, we examined somatic mutations of this gene in sporadic (nonfamilial) renal cell carcinomas, hepatocellular carcinomas, and cancers of the lung and pancreas. DNAs isolated from tumors were examined by means of a RNase protection analysis, coupled with the polymerase chain reaction followed by DNA sequencing of the polymerase chain reaction products. By screening a part of the APC coding region, we detected somatic mutations in four of ten pancreatic cancers; each of these mutations would yield a truncated APC product due to a 1- or 5-base pair deletion. These results imply that mutations in APC contribute to carcinogenesis in the pancreas.
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PMID:Frequent somatic mutations of the APC gene in human pancreatic cancer. 142 16

Immunization of naive or specifically primed C3H/HEJ with irradiated B10.BR spleen cells via the hepatic portal vein leads to an antigen specific decrease in the proliferative and cytotoxic response to B10.BR antigen assayed in vitro (and to increased graft survival of B10.BR grafts in vivo). This effect seems to be mediated in the main by a decrease in IL-2 production from CD4+ T lymphocytes of mice given antigen by the portal route, which is in turn caused by a decreased precursor frequency of IL-2-producing cells. No clear decrease in IL-4 production was seen. Hepatic APC isolated from mice receiving antigen via the portal vein were unable to induce IL-2 production from a C3H/HEJ anti-B10.BR cell line in vitro, in contrast to splenic APC derived from the same mice. Even when antigen was given by conventional (systemic) intravenous routes (in this case via the lateral tail vein) hepatic APC isolated from those mice were unable to stimulate IL-2 production from this cell line. Furthermore, 24 h exposure of a cell line to antigen pulsed hepatic APC left those cells refractory to a subsequent restimulation with antigen presented by splenic APC. Spleen lymphoid cells from primed mice challenged in vivo with B10.BR liver cells (i.v.) were similarly unable to produce IL-2 on rechallenge in vitro with irradiated B10.BR spleen cells, though no defect was seen if in vivo challenge was with B10.BR spleen cells. These data imply that presentation of multiple minor cell surface antigens by hepatic APC leads to specific anergization of IL-2 producing T cells, in a fashion which seems to be distinct from that previously reported as due to 'veto-like' activity.
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PMID:Immunosuppression induced by hepatic portal venous immunization spares reactivity in IL-4 producing T lymphocytes. 142 92

A major new challenge for vaccine development is to target APC such as monocytes and macrophages for efficient Ag processing and presentation. It has been shown that Fc gamma R-mediated uptake of Ag-antibody complexes can enhance Ag presentation by myeloid cells at least 100-fold, and directing Ag to Fc gamma R in mice brings about a substantial increase in the effectiveness of immunization while eliminating the requirement for adjuvant. It has not been determined which of the three subclasses of human Fc gamma R on myeloid cells (Fc gamma RI, Fc gamma RII, or Fc gamma RIII) function to enhance Ag presentation. We have targeted our Ag (TT) to each of the three subclasses of human Fc gamma R on monocytes using Fc gamma R subclass-specific mAb-TT conjugates, and have measured TT presentation by monitoring T cell proliferation in response to TT. In addition, we have examined enhanced Ag presentation mediated by a human IgG1 (HIgG1) anti-TT mAb. All anti-Fc gamma R-TT conjugates enhanced Ag presentation. HIgG1 anti-TT, in monomeric form, enhanced Ag presentation through Fc gamma RI only. Anti-Fc gamma RI-Ag conjugates appear to be optimal for application as vaccines. They are monocyte/macrophage-specific, are very efficiently processed and presented, and enhance Ag presentation despite occupation of Fc gamma RI with HIgG.
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PMID:Enhanced antigen presentation using human Fc gamma receptor (monocyte/macrophage)-specific immunogens. 143 Nov 18

Activation of the alternative (APC) and classical (CPC) pathways of complement by fungal (1----3)-beta-D-glucans having different degrees of branching (DB) and different conformations were examined by using human serum and plasma. The glucans used in this study were curdlan (no branch; 0/1), grifolan (one branch in every third main chain unit; 1/3), schizophyllan (1/3), SSG (1/2), and OL-2(2/3). Triple or single helix conformer of these glucans were prepared by heating at 150 degrees C or dissolution in sodium hydroxide. Activation of APC by these glucans were dependent on incubation time, concentration, molecular weight, and DB. Interestingly, the triple helix conformer of all glucans tested activated APC stronger than a single helix one. The activity of branched glucans in plasma was weaker than those in serum. On the other hand, in the case of CPC, a single helix conformer activated CPC stronger than a triple helix one, and the activity was dependent on DB. Activation of CPC by a single helix conformer was thought to be dependent on the binding of beta-glucan to immunoglobulin in serum, because the complex was clearly detected by gel permeation chromatography only in the case of single helix one. From these results, it appears that the different conformers were recognized by the host complement systems in different ways. (1----3)-beta-D-Glucan is one of the major constituents of fungal cell wall and is thought to be clearly recognized by the host immune systems.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of the complement system by (1----3)-beta-D-glucans having different degrees of branching and different ultrastructures. 143 67


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