Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

T lymphocytes usually recognize endogenously encoded Ag in the context of MHC class I molecules, whereas exogenous Ag is usually presented by MHC class II molecules. In vitro studies in model systems suggest that presentation of endogenous Ag by class II molecules is inhibited by the association of class II with its invariant chain (Ii). In the present study we test this hypothesis in an in vivo system in which endogenously encoded tumor peptides are presented by tumor cell MHC class II molecules. In this system, transfection of syngeneic MHC class II genes (Aak and Abk) into a highly malignant, Ii negative, mouse tumor (SaI sarcoma) produces an immunogenic tumor (SaI/Ak) that is rejected by the autologous host. The class II+ transfectants also effectively immunize autologous A/J mice against a subsequent challenge of wild-type class II- tumor cells. We have hypothesized that the SaI/Ak transfectants induce protective immunity because they function as APC for endogenously synthesized tumor peptides, and thereby stimulate tumor-specific Th cells, by-passing the need for professional APC. To test the role of Ii as an inhibitor of presentation of endogenous peptides, SaI/Ak tumor cells were supertransfected with Ii gene (SaI/Ak/Ii cells), and the tumorigenicity of the resulting cells determined. Nine SaI/Ak/Ii clones were tested, and their malignancy compared with that of SaI/Ak and SaI cells. Seven of the nine class II+/Ii+ tumor cells are more malignant than class II+/Ii- tumor cells in autologous A/J mice. Expression of Ii therefore restores the malignant phenotype, presumably by preventing presentation of endogenously synthesized tumor peptides. Ii therefore regulates Ag presentation and can be a critical parameter for in vivo tumor immunity.
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PMID:Invariant chain alters the malignant phenotype of MHC class II+ tumor cells. 152 84

Mouse Sal sarcoma cells are lethal in the autologous A/J (KkDd) host. In order to improve the immune response to the Sal tumor, Sal cells have been transfected with syngeneic MHC-class-II or allogeneic MHC-class-I genes. MHC-class-II transfectants are uniformly rejected by the autologous host and immunization with them protects against subsequent Sal challenge. The improved immunity is probably the result of enhanced generation of tumor-specific Th cells. We hypothesize that class-II tumor cells trigger an improved Th-cell response because they directly present Sal tumor antigens in the context of class-II molecules to Th cells, by-passing professional APC. Studies by others have demonstrated that antigen presentation requires an intracellular signal transmitted by the cytoplasmic domain of the APC class-II molecule. Sal cells expressing class-II antigens with truncated cytoplasmic domains are as malignant as wild-type Sal cells. These experiments therefore support the role of tumor-cell class-II molecules as antigen presentation elements, and demonstrate the requirement for intact class-II molecules for tumor protection. Sal cells have also been transfected with allogeneic MHC-class-I genes. Although Kb-transfected cells are not rejected by A/J mice, Db-transfected Sal cells and Kb- plus Db-transfected cells are rejected. The Db transfectants effectively immunize A/J mice against subsequent Sal challenge. These experiments demonstrate that expression of certain allogeneic MHC-class-I genes can lead to tumor-specific immunity, and that such transfectants can protect against challenges of wild-type tumor cells. Transfection of tumor cells with syngeneic MHC-class-II or allogeneic MHC-class-I genes may therefore be a potential strategy for improving tumor-specific immunity in the autologous host.
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PMID:Tumor-specific immunity can be enhanced by transfection of tumor cells with syngeneic MHC-class-II genes or allogeneic MHC-class-I genes. 190 55

Transfection of syngeneic MHC class II genes into the lethal mouse SaI tumor abrogates the malignancy of the tumor in the autologous host, and protects the host against subsequent challenges with the wild type class II- tumor. We have hypothesized that the transfectants induce protective immunity by functioning as APC for tumor peptides, and stimulating tumor-specific Th cells. Recent in vitro studies suggest that Ag presentation by class II-restricted APC requires the cytoplasmic domain of the class II molecule, and may involve intracellular signaling via the cytoplasmic domain. To determine if the class II cytoplasmic domain is required for enhanced tumor-specific immunity, SaI mouse sarcoma cells were transfected with syngeneic Aak and Abk genes with truncated cytoplasmic domains. These transfectants are as malignant as wild type class II- SaI cells in autologous A/J mice. Stimulation of tumor-specific immunity by class II+ tumor cells is therefore dependent on the class II cytoplasmic region, and may involve intracellular signaling events.
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PMID:Abrogation of tumorigenicity by MHC class II antigen expression requires the cytoplasmic domain of the class II molecule. 191 72

Th cells are stimulated by peptide Ag presented in the context of MHC class II molecules. We have reasoned that immune responses against tumors may be more efficient if tumor cells were class II Ag positive, and thereby able to directly function as APC to stimulate tumor-specific Th cell proliferation. We have tested this hypothesis by using DNA-mediated gene transfer to generate syngeneic MHC class II Ag-expressing mouse Sal sarcoma cells (Sal/Ak transfectants). Autologous A/J mice challenged i.p. or s.c. with Sal/Ak transfectants do not develop tumors, whereas A/J mice challenged with the class II negative parental Sal tumor have a high tumor incidence. Furthermore, immunization of the autologous host with Sal/Ak transfectants completely protects against subsequent challenge with wild-type Sal cells. MHC class II-expressing tumor cells, therefore, stimulate an improved tumor-specific immune response, and the immunity is cross-reactive with the class II negative tumor. Inasmuch as the transfected MHC class II gene product is not functioning as a target molecule for autologous tumor rejection, the improved immunogenicity of the Sal/Ak cells is probably due to stimulation of a tumor-specific Th cell population. The increased immunogenicity of Sal/Ak cells is, therefore, probably the result of direct presentation of Sal tumor-associated Ag in the context of tumor cell MHC class II molecules to Th lymphocytes. These studies demonstrate that induction of tumor cell MHC class II Ag expression is a potential strategy for tumor-specific immunotherapy, and suggest that tumor immunity may be enhanced by improved Th cell generation.
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PMID:Rejection of mouse sarcoma cells after transfection of MHC class II genes. 233 39

Murine strains which bear constitutive inactivating mutations of either the APC or the p53 tumor suppressor genes are characterised by spontaneous tumors. APC mutated (Min) mice develop large and small bowel adenomas, a small proportion of which, in time, become malignant. p53 deficient mice develop predominantly lymphoma and sarcoma. By interbreeding these strains we have shown that there is co-operativity between these mutations, leading to a shift in phenotype. Most notably, this was characterised by a range of abnormalities of the exocrine pancreas in 83% of animals heterozygous for the APC mutation and constitutively null for functional p53. Dysplasia and preneoplastic foci were seen in 61% of these animals and pancreatic acinar cell adenocarcinoma in 22%. Analysis of these tumors showed them to have lost the remaining wild-type copy of APC. Similar loss of APC was not associated with the development of other extra-intestinal tumors. Surprisingly, given the proposed role for loss of function mutations of the p53 gene in the development of human colorectal cancer, we have found no evidence for either an increase in the rate of adenoma formation in APC +/-, p53 -/- animals, or an increased rate of progression to malignancy compared with APC +/- p53 +/+ mice. These findings highlight striking tissue-specific differences in the tumor suppressor effects of p53.
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PMID:Interaction between murine germline mutations in p53 and APC predisposes to pancreatic neoplasia but not to increased intestinal malignancy. 747 22

We have been investigating the generation of specific immune responses using monoclonal anti-idiotypic Abs (Ab2) as surrogate tumor Ag. We have prepared a series of idiotypic mAbs (Ab1) from CBH/cbi rats bearing the syngeneic sarcoma HSN and have used these Ab1 to generate autologous Ab2. By using the autologous Ab2 as Ag, we have isolated T cell lines from CBH/cbi rats that proliferate specifically in the presence of the Ab2, with spleen cells as APC. Specific proliferation of the T cells was prevented if the spleen cells used for presentation were irradiated with conventional doses of x-rays (1000 rad) just before use. Titration of the radiation response showed that the capacity of the spleen cells to present Ag decreased exponentially with x-ray doses of up to 100 rad, at which dose presentation was virtually abolished. The same irradiated spleen cells were fully competent to present OVA to CBH/cbi-derived rat T cell lines specific for this Ag. Preincubating the APC with Ag before irradiation abrogated the effect of x-irradiation on the presentation of Ab2. We conclude that, in this rat system, the presentation of autologous Ab2 is highly sensitive to the effects of low doses of x-rays. The clinical significance of these findings is discussed.
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PMID:Presentation of anti-idiotypic antibody is sensitive to ionizing radiation. 802 96

Apart from its role in cell-adhesion, beta-catenin is regarded as an oncoprotein, the cytoplasmic level of which is regulated by APC as a tumor suppressor protein. Changes of chromosome 5q, the region that includes the APC-gene, are known to be important in the pathogenesis of fibromatosis; however, little is known about the significance of APC and beta-catenin in other mesenchymal tumors. Therefore, we used immunohistochemistry and DNA-analysis to investigate four cases of alveolar soft-part sarcoma (ASPS) as a mesenchymal tumor with a distinct histologic appearance. In three cases of ASPS the APC-gene product was found to have strong nuclear expression and only faint cytoplasmic staining. Beta-catenin showed a partly membranous, partly strong intracytoplasmic expression. No gene mutations for APC and beta-catenin were detected in any of the four cases. These investigations suggest that, apart from their function in carcinogenesis and fibromatoses, APC and beta-catenin play a role in the pathogenesis of soft tissue tumors such as ASPS. The significance of a striking nuclear accumulation of non-mutated, virtually functionally active APC-tumor suppressor protein has not yet been investigated. A nuclear function of APC in ASPS in down-regulating nuclear transcription processes linked to overexpression of beta-catenin, as is known in colorectal carcinogenesis, may be hypothesized.
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PMID:APC and beta-catenin in alveolar soft part sarcoma (ASPS)--immunohistochemical and molecular genetic analysis. 1083 86

MHC class II-restricted tumor Ags presented by class II(+) tumor cells identified to date are derived from proteins expressed in the cytoplasm or plasma membrane of tumor cells. It is unclear whether MHC class II(+) tumor cells present class II-restricted epitopes derived from other intracellular compartments, such as nuclei and/or mitochondria, and whether class II(+) tumor cells directly present Ag in vivo. To address these questions, a model Ag, hen egg lysozyme, was targeted to various subcellular compartments of mouse sarcoma cells, and the resulting cells were tested for presentation of three lysozyme epitopes in vitro and for presentation of nuclear Ag in vivo. In in vitro studies, Ags localized to all tested compartments (nuclei, cytoplasm, mitochondria, and endoplasmic reticulum) are presented in the absence invariant chain and H-2M. Coexpression of invariant chain and H-2M inhibit presentation of some, but not all, of the epitopes. In vivo studies demonstrate that class II(+) tumor cells, and not host-derived cells, are the predominant APC for class II-restricted nuclear Ags. Because class II(+) tumor cells are effective APC in vivo and probably present novel tumor Ag epitopes not presented by host-derived APC, their inclusion in cancer vaccines may enhance activation of tumor-reactive CD4(+) T cells.
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PMID:Tumor cells present MHC class II-restricted nuclear and mitochondrial antigens and are the predominant antigen presenting cells in vivo. 1106 97

Synovial sarcoma is the most common nonrhabdomyosarcomatous soft-tissue sarcoma in children and young adults. It is characterized by the common t(X;18)(p11.2;q11.2) that results in the fusion of SYT on chromosome 18 to one of two closely related and adjacent genes on the X chromosome, SSX1 or SSX2. Here we describe a poorly differentiated, monophasic synovial sarcoma in a 17-year-old adolescent boy. Hyperdiploidy, a t(X;18)(q13;q11), and other structural abnormalities were detected by conventional cytogenetic analysis. Fluorescence in situ hybridization with the PAC probe RP3-519N18, which is specific for the Xp11 region, resulted in a signal on the der(Xq), a finding consistent with a pericentric inversion of the X chromosome that resulted in a t(X;18)(p11.2;q11.2)inv(X)(p11.2q13). Real-time polymerase chain reaction using primer sets specific for SYT-SSX1 and SYT-SSX2 confirmed the presence of an SYT-SSX1 fusion transcript. Our finding of this unique and complex translocation in synovial sarcoma demonstrates the utility of molecular methods in confirming the diagnosis of synovial sarcoma.
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PMID:Complex t(X;18)(p11.2;q11.2) with a pericentric inversion of the X chromosome in an adolescent boy with synovial sarcoma. 1185 75

It has previously been demonstrated that accumulated beta-catenin serves as an oncoprotein in synovial sarcoma and results in a poor overall survival rate, but the frequency of beta-catenin mutation was quite low (8.2%). The present study, using essentially the same study group of cases, screened for genetic alterations in the mutation cluster region (MCR) of the APC gene in 49 cases of synovial sarcoma. SSCP analysis followed by DNA direct sequencing revealed five missense APC mutations in four cases of synovial sarcoma (8.2%). The mutational sites comprised one case each at codons 1299 (GCT to ACT, Ala to Thr), 1412 (GGA to AGA, Gly to Arg), and 1414 (GTA to ATA, Val to Ile), in addition to one case with double point mutations at codon 1398 (AGT to AAT, Ser to Asn) and at codon 1413 (ATG to ATA, Met to Ile), together with beta-catenin mutation at codon 32 (GAC to TAC, Asp to Tyr). All four cases with APC mutations were histologically of the monophasic fibrous type and showed beta-catenin accumulation. All three cases with APC mutations available for follow-up data were long survivors. This study provides the first evidence that APC mutations also occur in the field of sarcoma, especially in synovial sarcoma.
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PMID:APC mutations in synovial sarcoma. 1192 Jul 41


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