UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
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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

Germline mutations of the tumor suppressor gene APC cause familial adenomatous polyposis. Somatic APC alterations are involved in several sporadic neoplasms, including colorectal, duodenal, gastric, and esophageal carcinoma. The APC mRNA is encoded by 15 exons. Additional transcripts have been reported, due to alternative splicing of coding as well as noncoding regions. Two mRNA isoforms occur due to a deletion of exon 7 or a partial deletion of exon 9. We have identified a novel exon, flanked by APC exons 10 and 11, which is expressed as an alternatively transcribed product of the gene. Further, we have shown that the novel exon consists of a heptad repeat motif and is conserved across species.
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PMID:Evidence for a novel exon in the coding region of the adenomatous polyposis coli (APC) gene. 749 Jan 1

It is now well established that CD4+ T cells can express cytotoxic activity. This type of cell-mediated cytotoxicity is associated with the Th1-, but not with the Th2-phenotype. While the activation of CD4+ CTL is MHC class II-restricted, the effector phase, i.e. the target cell killing is unrestricted and antigen non-specific. In analogy to CD8+ CTL, CD4-mediated target cell death is by DNA fragmentation. However, the molecular mechanism of killing differs from CD8-mediated lysis. Thus, CD4+ CTL preferentially lyse their targets via Fas-Fas ligand interaction, whereas the major cytotoxic effect of CD8+ CTL is by granule exocytosis, i.e. perforin and granzymes. Although CD8+ CTL can also express the FasL, their lytic activity through interaction with Fas is of less importance. Likewise, some CD4+ CTL may also kill by perforin/granzymes activity, but this pathway is of minor significance. The aims of CD8- or CD4-mediated lysis are also different. Thus, the major task of CD8+ CTL which recognize and kill their targets in the context of MHC class I molecules, is the lysis of virally infected cells and battling against tumor cells. CD4+ CTL, on the other hand, have an immunomodulatory role. Thus, they preferentially eliminate activated MHC class II-positive cells, i.e. APC, be they monocytes/macrophages, B cells or T cells. They may lyse these cells in order to prevent an overreaction of the ongoing immune response or in order to remove potentially hazardous cells upon completion of the immune response. The Fas-FasL pathway is particularly suitable for this task as myeloid or lymphoid cells express Fas only if activated, while FasL is preferentially expressed on activated CD4+ Th1 cells. Moreover, activated T cells eliminate themselves by the Fas-mediated pathway. Whether this happens by fratricide only, or also by suicide or both is open. Moreover, CD4+ CTL are particularly suitable for killing tumor cells as well, as they are efficient effectors in bystander lysis in contrast to CD8+ CTL. On the other hand, the non-specific killing via Fas-FasL interaction, which is an important reason for the bystander lysis, may have unwanted effects in that cells which should not be eliminated could be killed. Such reactions affecting various organs and cells, e.g. the liver, thyroid or islet cells of the pancreas could be an explanation for certain autoimmune diseases.
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PMID:Mechanism and biological significance of CD4-mediated cytotoxicity. 749 61

Mutation of the APC (adenomatous polyposis coli) gene is an early event in colon tumor development in humans. Mice carrying Min (multiple intestinal neoplasia), a mutant allele of Apc, develop intestinal and mammary tumors as adults. To study the role of the Apc gene in development, we have investigated the phenotype of embryos homozygous for ApcMin (Min). Development of the primitive ectoderm fails prior to gastrulation in homozygous Min embryos. By midgestation, the presumed homozygotes consist of a mass of trophoblast giant cells with an additional cluster of much smaller embryonic cells. These results indicate that functional Apc is required for normal growth of inner cell mass derivatives.
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PMID:Homozygosity for the Min allele of Apc results in disruption of mouse development prior to gastrulation. 749 34

We present a restriction fragment length polymorphism (RFLP) analysis of 29 benign and 30 malignant prostatic tumors, using polymorphic DNA probes to the putative tumor suppressor genes DCC (Deleted in Colorectal Carcinoma; chromosome 18q21.3), nm23-H1 (17q21.3), APC (Adenomatous Polyposis Coli; 5q21) and p53 (17p13). Six of 23 evaluable cancers (26%) showed loss of heterozygosity (LOH) at DCC; 5 were advanced stage and one was clinically localized (p < 0.05). Mapping 18q deletions, another (advanced) cancer showed LOH at a locus distal to DCC (18q22), but no LOH at DCC. Three of 15 evaluable cancers (20%), all advanced, showed LOH at APC. Three of eight (38%) cancers, of which 2 were advanced, showed LOH at p53. One high grade/stage cancer of 21 (5%) showed LOH at nm23-H1 (and also at DCC). Combining data, allelic losses at either DCC, APC, or p53 genes were seen in 13% of localized cancers, but in 71% of advanced cancers (p < 0.002). Allelic loss involving nm23-H1 is rare in prostatic carcinoma. We suggest that loss of tumor suppressor genes DCC and/or an unidentified gene located distally on chromosome 18q, APC, or p53 may influence progression in prostatic carcinoma.
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PMID:Somatic allelic loss at the DCC, APC, nm23-H1 and p53 tumor suppressor gene loci in human prostatic carcinoma. 751 Mar 45

Neoplastic progression of colorectal epithelial cells from benign adenomas to malignant carcinomas appears to result from a series of genetic alterations involving both oncogenes and tumor suppressor genes. This progression was recently found to be associated with expression of splice variant isoforms of CD44, a cell surface hyaluronate receptor implicated in carcinogenesis. In this study we examined the relationship of CD44 expression to somatic genetic events in the adenoma-carcinoma sequence: point mutation of K-ras in codons 12 and 13 and overexpression of p53 protein as a marker of gene mutation. Among 22 small adenomas, CD44 was present in 9 (41%), of which only 1 contained a K-ras mutation. CD44 was absent in the other 2 small adenomas positive for K-ras mutation or p53 overexpression. In contrast to the early expression of CD44 in small adenomas, mutations of K-ras and p53 were detected preferentially in large adenomas and late-stage adenomas containing carcinoma. The frequent expression of CD44 prior to K-ras and p53 gene alterations in colorectal neoplasia suggests that activation of CD44 gene expression is related to earlier events in the adenoma-carcinoma sequence, possibly cell activation and proliferation following APC gene mutation or alteration of DNA methylation.
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PMID:CD44 expression in colorectal adenomas is an early event occurring prior to K-ras and p53 gene mutation. 751 84

Interactions between the costimulatory molecule B7 on APC and its counter-receptor CD28 on T lymphocytes play a key role in the induction of cell-mediated immune responses. We studied the role of costimulation of tumor-reactive T cells by B7 in the immune destruction of the K1735-M2 mouse melanoma into which the gene encoding the human melanoma-associated Ag, p97, had been transfected. Previous work has demonstrated that the p97 transfectant cl62 is immunogenic but still grows progressively in immunocompetent C3H/HeN mice and that adoptive transfer of p97-specific CD4+ T cells can induce the regression of small established cl62 tumors metastatic to the lungs. We have now shown that expression of B7 in cl62 after retroviral-mediated gene transfer eliminated its ability to grow in immunocompetent mice but not in T cell-deficient nude mice. Mice immunized with B7-transduced p97+ cells had an increased activity of both CD4+ T cells, which could proliferate in response to the p97 Ag, and CD8+ CTL, which could lyse a broad spectrum of cultured syngeneic p97+ and p97- tumor lines but not allogeneic tumor lines or syngeneic lymphoblasts. Both CD4+ and CD8+ T cell subsets were required for tumor rejection, and the depletion of CD4+ T cells in vivo decreased the tumoricidal activity of CD8+ CTL. Treatment of mice bearing an 8-day established s.c. cl62 melanoma by i.p. injection of B7+ cells from 2A, a highly immunogenic p97 transfectant, resulted in complete tumor regression and cure, injection of B7- 2A cells did not. The therapeutic effect was specific for the cl62 tumor. Our results demonstrate that costimulation by B7 can amplify both CD4+ and CD8+ T cell responses against small tumors toward therapeutic benefit.
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PMID:Costimulation of tumor-reactive CD4+ and CD8+ T lymphocytes by B7, a natural ligand for CD28, can be used to treat established mouse melanoma. 751 29

Esophageal cancer is an important problem in the United States. It results in more deaths (over 10,000 annually) than rectal cancer. Furthermore, the incidence of esophageal adenocarcinoma is increasing at a rate faster than that of nearly any other cancer and the reasons for the increase are not well understood. A variety of tumor-suppressor genes (including p53, APC, DCC and Rb) and proto-oncogenes (including prad1, EGFR, c-erb-2 and TGF alpha) may be involved in the development and progression of esophageal cancer. Clinical prognostic factors include stage, Karnofsky performance status, sex, age, anatomic location of the tumor, and degree of weight loss. A new staging system based on depth of wall penetration and lymph node involvement correlates well with prognosis for patients undergoing esophagectomy. Newer staging procedures including endoscopic ultrasound as well as the use of minimally invasive surgery, such as thoracoscopy and laparoscopy, may allow accurate staging without esophagectomy. Surgical resection provides excellent palliation; however, the chance for cure with esophagectomy alone is only 10% to 20%. Adjuvant treatment with pre- or postesophagectomy radiation may improve local-regional control but does not improve survival. Nor has preoperative chemotherapy been shown to improve survival; however, it remains an active area of investigation. Multimodality therapy, namely, chemotherapy and radiation (chemoradiation), given concurrently prior to surgical resection shows promise, with one study indicating a 5-year survival of 34%. A complete pathologic response to chemoradiation correlates with improved survival. Chemoradiation has been shown to be superior to radiation as primary management of esophageal cancer. There has been no successfully completed randomized trial of surgery versus definitive radiation or chemoradiation. However, chemoradiation represents a reasonable alternative to esophagectomy in the primary management of squamous cell carcinoma of the esophagus and chemoradiation also appears to be effective in the treatment of patients with adenocarcinoma of the esophagus, offering significant palliation and a chance for long-term survival as well. Randomized studies of preoperative chemoradiation versus surgery or versus chemoradiation alone are needed. The treatment of advanced esophageal cancer must be directed toward palliation of symptoms. Newer endoscopic techniques, including the use of expansile metal stents, laser ablation, intraluminal high-dose rate brachytherapy, BICAP tumor probe, or photodynamic therapy, offer selected patients short-term palliation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Esophageal cancer. 753 69

Over the last few years, it has become clear that cell adhesion receptors function in signal transduction processes leading to the regulation of cell growth and differentiation. Signal transduction by both integrins and CAMs has been shown to involve activation of tyrosine kinases, while CAM signaling in neural cells involves G proteins as well. In the case of integrins, some of the downstream signaling events intersect with the Ras pathway, particularly the activation of MAP kinases. In fibroblasts, integrin mediated anchorage to the substratum regulates cell cycle traverse, while in epithelial cells, loss of anchorage can trigger programmed cell death. In many cell types, but particularly monocytic cells, integrin ligation has a profound impact on gene expression. Preliminary evidence also implicates CAMs and selectins in gene regulation. A consistent theme in signal transduction mediated by adhesion receptors concerns the role of the cytoskeleton. Integrin mediated signaling processes are interrupted by cytoskeletal disassembly. Identification of the APC and neurofibromatosis type 2 tumor suppressors suggest that cytoskeletal complexes also play a key role in signaling by cadherins and CD44, respectively. Thus, signaling by cell adhesion receptors may involve aspects that impinge on previously known signaling pathways including the RTK/Ras pathway and serpentine receptor/G protein pathways. However, novel aspects of signal transduction involving cytoskeletal assemblies may also be critical.
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PMID:Signal transduction by cell adhesion receptors. 754 26

Since Pam 212 cells express low levels of class I major histocompatibility (MHC) antigens, we tested their ability to present alloantigens or minor histocompatibility (mH)/minor lymphocyte stimulatory (mls) antigens in disparate hosts. After subcutaneous injection, Pam 212 cells grew progressive tumors in normal BALB/c mice but were rejected rapidly by naive C3H mice (3 weeks) and slowly by DBA/2 mice (8 weeks). Pam 212 cells (high or low class I MHC expression) induced a strong primary MLR in DBA/2 T cells, but a weak BALB/c T-cell response. In contrast, splenic APC (BALB/c) did not induce an MLR, suggesting that Pam 212 cells represented mH antigens to naive DBA/2 T cells. This MLR was blocked by anti-TCR alpha/beta, anti-class II, and anti-CD4 monoclonal antibodies, but was independent of ICAM-1 and B7. Repeated immunization using IFN-gamma-treated Pam 212 cells induced anti-Pam 212 CTL in DBA/2 mice but not in BALB/c mice. DBA/2 T-cell responses did not appear to be mls (MMTV superantigen)-specific, because Pam 212 cells did not express MMTV mRNA detectable by RT-PCR. Pam 212 cells presented non-lymphoid-associated mH antigens that served as potent stimuli for tumor rejection in mH/mls-disparate hosts, which is similar to tumor rejection mediated by MHC alloantigens.
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PMID:Minor histocompatibility antigen-dependent rejection of Pam 212 epidermoid carcinoma by DBA/2 mice. 754 74

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