UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mammalian cells contain a microsomal vitamin K-dependent carboxylase activity which catalyzes the gamma-carboxylation of glutamate. While most cells have a limited ability to fully gamma-carboxylate proteins, it has been suggested that the ability of transformed cells to perform this complex post-translational modification may play a role in tumor biology. In this study, we examined the effect of transformation by adenovirus oncogenes on the ability of cells to efficiently gamma-carboxylate a vitamin K-dependent protein. Several morphologically transformed BHK-21 cell lines (BHK-Ad) were isolated following the chromosomal integration of the viral oncogenes E1A/E1B from human adenovirus type 12 (Ad12). The lines were capable of growing in soft agar and low serum and produced functional E1A as determined by promoter activation studies. Using a vector for the expression of the vitamin K-dependent recombinant human protein C (HPC), a regulator of the clotting cascade, Ad-transformed and nontransformed lines secreting rHPC were generated. The rHPC from the transformed and nontransformed cell lines displayed identical serine protease activities, and there were no apparent differences in the proteolytic processing of the proteins, although a minor difference in the proportion of each HPC glycoform was observed. However, the functional anticoagulant activity, which depends on the gamma-carboxyglutamic acid (Gla) content, was approximately 70% higher in the Ad-transformed lines. Approximately 90% of the rHPC from the Ad-transformed lines exhibited a calcium-dependent (high Gla) elution profile on anion-exchange resin, compared to only 15 to 26% from the nontransformed cell clones. By analyzing endogenous microsomal carboxylase, we determined that enzyme activity increased approximately 50% following transformation. Overall, our data demonstrate that transformation can increase the potential of a cell to efficiently gamma-carboxylate a protein and lend support to the suggested involvement of this post-translational modification in tumor cell function. Further, our results demonstrate a potential means of altering cells to enable full modification of vitamin K-dependent factors for structure/function studies and potentially for therapeutic use.
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PMID:Viral transformation increases vitamin K-dependent gamma-carboxylation of glutamate. 182 87

Changes in the fibrinolytic and coagulation values measured preoperatively in brain tumor patients have not been done systematically using individual rather than global assays. Such measurements can provide meaningful information on the status of tumor-host interactions and could potentially help in predicting thromboembolic and hemorrhagic tendencies. A complete fibrinolytic profile including total fibrinolytic activity (TFA), tissue plasminogen activator (t-PA), plasmin inhibitor (PI), plasminogen activator inhibitor (PAI), protein C (PC) and plasminogen (PLG) was obtained preoperatively in 114 brain tumor patients. PLG and PI did not show much variation among the groups. TFA was slightly reduced (15%) in patients with malignant brain tumors. t-PA, however, was abnormally low in several patients and in almost 40% of patients with brain metastasis. PAI was above the upper limit of normal in approximately 50% of the patients but particularly in glioma, glioblastoma and metastasis patients. Finally, mean PC was abnormally increased in the glioblastoma and metastasis groups (p less than 0.001). This is the first study that has measured protein C in brain tumor patients. In conclusion, plasma fibrinolytic levels show marked changes in a substantial number of brain tumor patients prior to surgery--suggesting an ongoing tumor-host interaction.
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PMID:Plasma fibrinolytic profile in patients with brain tumors. 182 14

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

Interference with autocrine or paracrine loops offers a potential means of treatment of tumors which currently lack effective therapies. Hormonally responsive breast cancers generally respond to treatment with antiestrogens but a frequent occurrence is an outgrowth of populations of tumor cells that are no longer dependent on estrogen for growth. If the acquisition of the ability to constitutively express growth factors or growth factor receptors is associated with this form of tumor progression, identification of the growth factors and their receptors having the capability of reducing the dependence on estrogen for growth is an important first step in the design of strategies aimed at interfering with their function. Experimental systems employing transfection with eukaryotic expression vectors are described that are designed to test the hypothesis that overexpression of epidermal growth factor receptor or the related protein C-ERB-B2 may confer an increased growth rate under conditions of estrogen deprivation. The transfected cells are also being used to explore the molecular mechanisms underlying the regulation of epidermal growth factor receptor expression by estrogen.
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PMID:Growth factor receptors and the progression of breast cancer. 196 91

Presence of the three major pathways (self-Ia restricted, allo-K/D restricted, and allo-Ia restricted pathways) in generating class I-restricted CTL has been reported. The present study was conducted in order to clarify which of the three is the main pathway in mediating tumor allograft rejection. One million EL-4 tumor cells derived from C57BL/6 (B6;H-2b) were inoculated into the various strains of mice that were genetically different from B6. Class I (K/D) Ag-disparate but IA Ag-matched B6.C-H-2bm1 (bm1;Kbm1, IAb, IE-, Db) mice or B10.A (5R) (5R; b, b, k, d) mice could not reject 1 x 10(6) EL-4 tumor cells in spite of the strong generation of CTL against the B6 Ag, suggesting the inability of the self-Ia restricted pathway and the allo-K/D restricted pathway in rejecting tumor allografts. The strains of mice being capable of rejecting EL-4 tumor were disparate from B6 mice in both class I and class II (IA) Ag, suggesting the importance of the allo-Ia restricted pathway in rejecting tumor allografts. To generate CTL against Kb Ag via the allo-Ia restricted pathway in the bm1 mice, 2 x 10(7) B6.H-2bm12 (bm12; b, bm12, -, b) spleen cells were injected into the bm1 mice as a supplementary source of allogeneic APC that possibly raise CTL through CD4+ Th cells of bm1 origin. These bm1 mice became capable of rejecting 1 x 10(6) EL-4 tumor cells. The same was observed in the combination of bm12----B10.A (5R) (b, b, k, d) mice. To further elucidate the role of the class II restricted CD4+ Th cells, anti-CD4 antibody was repeatedly i.v. administered into the C3H/He (C3H; H-2k) or the DBA/2 (DBA; H-2d) mice on days 0, 1, and 4. Injection of anti-CD4 antibody led 1 x 10(6) EL-4 tumor cells to grow and kill the C3H and DBA mice. These results suggest that the main effector CTL pathway involved in tumor allograft rejection is allo-Ia restricted pathway where CD8+ precursor CTL were stimulated by the class II-restricted CD4+ Th cells.
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PMID:Tumor allograft rejection is mainly mediated by CD8+ cytotoxic T lymphocytes stimulated with class I alloantigens in cooperation with CD4+ helper T cells recognizing class II alloantigens. 196 30

The purpose of this work was to compare the efficacy of immunizing mice with a soluble vs a cell-associated form of a tumor Ag. A murine B cell tumor (2C3), which displays an Id on its cell surface, grows progressively and gives rise to Id-negative tumor variants in nonimmunized animals. We previously reported that the tumor variants arise as a consequence of Id-specific T cell suppression of the Id+ tumor. The Id-specific effector T cells are CD4+, CD8-. Based upon these findings vaccination protocols have been designed and tested to determine whether the expansion of tumor-specific effector T cells would eliminate the Id+ tumors and prevent the subsequent generation of Id- tumor variants in vivo. MHC-restricted T cells typically recognize soluble Ag subsequent to modification by an APC, and APC may ultimately express a processed form of the Ag that is different from that expressed on the surface of the tumor cells. Based upon this assumption, the efficacy of immunizing mice with cell-associated 2C3 Id was compared to immunization with a soluble form of the same Id. Mice were immunized with either irradiated 2C3 cells or syngeneic spleen cells to which 2C3 protein was covalently linked. These immunization protocols provided a complete and lasting protection against a tumor challenge of up to 1 x 10(6) tumor cells. In contrast, most mice hyperimmunized with a soluble form of the Id did not survive this level of tumor challenge in spite of the production of significant levels of anti-Id antibodies. Mice immunized with the soluble form of the Id, which did survive, produced slowly progressing tumors expressing a 1000-fold less of the marker Id. These results illustrate the importance of understanding and properly exploiting a host's natural response to a tumor-specific Ag when designing effective immunization protocols for cancer therapy.
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PMID:Vaccination with membrane-associated idiotype provides greater and more prolonged protection of animals from tumor challenge than the soluble form of idiotype. 197 19

The host immune response toward autologous human cancer is subject to regulation by the immunoregulatory network. We show that certain CD4+ T cell clones, derived from melanoma involved lymph node lymphocytes and from PBL stimulated by autologous melanoma cells, selectively down-regulated the induction of cytotoxic immune response of PBL against the respective autologous melanoma cells in two autologous systems. In both systems, only the generation of cytotoxic response against the autologous melanoma cells were suppressed. Cytotoxic response against EBV-infected autologous lymphoblastoid cell line in one case and cytotoxic responses against allogeneic targets in the other were not affected. In addition to suppressor activity selectively expressed against the autologous melanoma cells, the T cell clones up-regulated their Tac receptors when cocultured with the autologous melanoma cells and APC. These results support the existence of a putative tumor Ag-driven activation of regulatory T cells that affect cytotoxic immune response, in vitro, against autologous human melanoma.
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PMID:Autologous melanoma-induced activation of regulatory T cells that suppress cytotoxic response. 197 29

Spleen cells of BALB/c mice bearing a syngeneic CSA1M fibrosarcoma were treated with anti-Thy-1.2 antibody plus C, yielding a T cell-depleted, APC-containing fraction. The APC-containing fraction was first tested for its capacity to present exogenous modified-self or another tumor (Meth A) Ag after in vitro pulsing. The results showed comparable Ag-presenting capacities to those obtained by APC-containing fraction from normal spleen cells, indicating that APC function is not affected in tumor-bearing mice. We next examined whether APC from CSA1M-bearing mice bind endogenously generated CSA1M tumor Ag onto its surfaces to stimulate tumor-specific T cells. Five rounds of inoculation of APC-containing fraction from CSA1M-bearing mice without further in vitro pulsing resulted in the induction of potent anti-CSA1M immune resistance. The involvement of anti-CSA1M T cells in the induction of anti-CSA1M immunity was excluded by the fact that the in vivo immunity was excluded by the fact that the in vivo immunity was delivered by Thy-1+ cell-depleted, but not by Thy-1+ cell-enriched fractions of spleen cells from CSA1M-bearing mice. Moreover, the failure of Sephadex G10-passed spleen cells to deliver anti-CSA1M resistance demonstrated the absolute requirement of APC for inducing the in vivo immunity. Finally, this in vivo resistance was found to be tumor specific, because APC fractions from CSA1M-bearing and Meth A-bearing BALB/c mice induced immune resistance selective against the corresponding tumor cell challenge. These results indicate that APC from tumor-bearing hosts can not only exert unaffected APC function against exogenous Ag, but also function to present tumor Ag generated endogenously in the tumor-bearing state and to produce tumor-specific immunity in vivo.
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PMID:Evidence for the functional binding in vivo of tumor rejection antigens to antigen-presenting cells in tumor-bearing hosts. 199 50

Activated ras proto-oncogenes contribute to the pathogenesis of many animal and human malignancies. ras proto-oncogenes are generally activated by point mutations within codons 12 or 61, which result in the expression of ras protein (p21) bearing characteristic single amino acid substitutions at the corresponding residues. The purpose of the current study was to determine whether the presence of single transforming amino acid substitutions can render normal ras protein immunogenic and, thus, a possible target for T cell-mediated tumor therapy. In initial experiments, C57BL/6 mice were immunized with a synthetic peptide corresponding to residues 5 through 16 of p21 containing the transforming substitution of arginine for normal glycine at residue 12. The results demonstrated that class II MHC-restricted T cells which were specific for the peptide could be elicited, and that the peptide-induced T cells could specifically recognize the corresponding intact p21 ras protein. Recognition of p21 ras protein by peptide-specific T cells implies that C57BL/6 APC can process the activated ras protein in a fashion that allows presentation of digested protein by class II MHC molecules in a configuration similar to the configuration with synthetic peptide. Evaluation of the immunogenicity of peptides containing alternative transforming amino acid substitutions of ras protein demonstrated that some, but not all, were immunogenic in individual strains of mice. Therefore, although ras protein-specific T cells can be elicited by immunization with synthetic peptides, not all of the potential ras mutations commonly associated with malignancy may be recognizable by T cells from all individuals.
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PMID:T cell recognition of transforming proteins encoded by mutated ras proto-oncogenes. 200 90

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