Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0677930 (primary tumor)
 20,210 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously demonstrated that interferon (IFN) treatment of mice bearing the spontaneously metastasizing B16F10L murine melanoma on days -5 to -1 prior to surgical removal (day 0) of the primary tumor resulted in survival of greater than 50% of treated mice. The antitumor effect was correlated with an early increase of natural killer (NK) cell cytotoxicity followed by a later developing specific cytolytic T-cell response. The purpose of this study was to establish definitively the roles of NK, CD4, and CD8 cells as mediators of the antitumor/antimetastatic effects of IFN treatment by administration of anti-asialo-GM1, anti-L3T4, and/or anti-Lyt-2 antisera. Depletion of NK cells, alone or in combination with T-cells, eliminated the protective effect of IFN treatment. Depletion of both CD4 and CD8 cells, however, did not significantly alter the therapeutic effect of IFN therapy. Collectively, these data conclusively demonstrated the importance of NK cells as mediators of the IFN induced antitumor state. However, in mice depleted of CD4 cells alone, the protective effect of IFN was eliminated, in spite of the presence of intact NK cells. In vitro analysis of NK cytotoxicity on day 1 after surgery demonstrated (a) a lack of IFN induced stimulation of NK activity in CD4 depleted mice and (b) a significant increase in both baseline and IFN induced NK cytotoxicity in CD8 depleted mice. These data suggested a CD8 cell mediated inhibition of NK activity/stimulation in CD4 depleted mice, possibly responsible for the lack of response to IFN therapy in that group. These results demonstrate the importance of not only individual components of the immune system but also the interaction of these components in both the natural and IFN induced control of spontaneous B16F10L metastases.
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PMID:Role of natural killer and T-cells in interferon induced inhibition of spontaneous metastases of the B16F10L murine melanoma. 170 66

Peritumoral injection of relatively low doses of either mouse interferon (IFN)-alpha/beta (10,000-20,000 units/injection) or of recombinant human interleukin-1 (IL-1) beta (125-250 ng/injection) in mice transplanted s.c. with Friend erythroleukemia cells (FLC) resulted in some inhibition of primary tumor growth, inhibition of liver and splenic metastases and increased survival time. A synergistic anti-tumor effect was observed in mice injected with both IL-1 and IFN-alpha/beta. Highly purified mouse IFN-beta also exerted a synergistic anti-tumor effect when combined with IL-1-beta in mice injected with FLC. The anti-tumor action of IL-1/IFN was markedly reduced in mice treated with antibodies to CD4 antigens. Antibodies to asialo-GM1 also diminished the anti-tumor effect by the combined cytokine treatment. The combined IL-1/IFN therapy was effective in NK-deficient bg/bg mice, although the extent of the anti-tumor response in these mice was less than that observed in bg/+mice.
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PMID:Synergistic anti-tumor effects of combined IL-1/IFN-alpha/beta therapy in mice injected with metastatic Friend erythroleukemia cells. 187 71

In vivo administrations of anti-Lyt-2.2 (CD8) mAb and anti-L3T4 (CD4) mAb selectively eliminated CD8+ cells and CD4+ cells, respectively. The relative potencies of CD8+ cells and CD4+ cells and their roles in primary tumor rejections were studied by investigating the effects of these mAbs on tumor growth. CD8+ cells were themselves fully capable of mediating rejection in 5 different tumor rejection systems: two radiation leukemia virus (RadLV)-induced leukemias, B6RV2 and BALBRVD, a radiation-induced leukemia BALBRL male 1, and a plasmacytoma BALBMOPC-70A in CB6F1 mice, and a Friend virus-induced leukemia B6FBL-3 in B6 mice. On the other hand, CD4+ cells were capable of resisting tumor growth of B6FBL-3, but not of the other four tumors. Furthermore, for efficient rejection of CB6F1UV female 1 sarcoma by CB6F1 mice, synergy of CD8+ and CD4+ cells was necessary. Blocking of UV female 1 rejection was abrogated by delayed administration of anti-L3T4 (CD4) mAb but not anti-Lyt-2.2 (CD8) mAb, indicating the involvement of CD4+ cells in only the initial phase of rejection.
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PMID:The roles of CD8+ and CD4+ cells in tumor rejection. 257 3

We investigated possible mechanisms of the antitumor action of gamma-(9H-purine-6-yl) thiomethyl L-glutamate (6-MPG), a water-soluble derivative of 6-MP. In the double grafted tumor system, BALB/c mice were inoculated intradermally with 10(6) cells of MethA fibrosarcoma at the right inguinal region on day 0 (the primary tumor) and later with 3 x 10(6) cells at the left on day 10 (the secondary tumor). Intraperitoneal administration of 6-MPG at a dose of 100 mg/kg/day from day 3 through 7 completely prevented growth of the secondary tumor. 6-MPG showed no effect on growth of colon 26 adenocarcinoma cells inoculated in place of the secondary MethA cells (antigen specificity). 6-MPG did not inhibit the secondary MethA growth in the BALB/c (nu/nu) mouse. The inhibitory effect of 6-MPG on the secondary tumor growth was diminished by prior treatment of the primed animals with cyclosporin A and anti-Thy antibody. Spleen cells from the tumor-bearing mice treated with 6-MPG showed a tumor-neutralizing activity (Winn assay). Treatment of the spleen cells with anti-CD8 antibody plus complement diminished the tumor-neutralizing effect but that with anti-CD4 antibody plus complement did not, indicating that CD8-positive cells are responsible for potentiation of the tumor immunity. These results suggest that the antitumor effect of 6-MPG against the secondary tumor is elicited by augmenting tumor specific T-cell production.
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PMID:Study on the mechanism of immunopotentiating antitumor effect of 6-MPG, a water-soluble derivative of 6-mercaptopurine. 928 48

Eighty-six lymph nodes at measured distances from a primary tumor were removed from 68 patients with malignant melanoma. The ability of lymph-node lymphocytes (LNL) from these nodes to modulate proliferation of a melanoma cell line (UCLA-SO-M14) in vitro was tested. LNL from the majority of lymph nodes (66%) inhibited M14 growth, but LNL from 34% of nodes stimulated growth of the cell line. Peripheral blood mononuclear cells always inhibited M14 growth. Distance of a node from the primary tumor was found to be an important determinant of LNL activity. This was demonstrated using pairs of nodes from individual patients. In 86% of cases, LNL from nodes located nearer to the tumor inhibited M14 growth less than LNL from more distant nodes. Stimulation of M14 growth was commonest with LNL from nodes located near to the tumor. CD8+ T cells were largely responsible for M14 growth inhibition, whereas CD4+ cells were associated with stimulation of M14 growth. Removal of CD4+ lymphocytes from growth stimulatory LNL resulted in a CD4-depleted LNL preparation that inhibited M14 cell proliferation. The environment in lymph nodes located dose to tumors may thus favor growth of metastatic tumor cells.
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PMID:Lymphocytes from lymph nodes at different distances from human melanoma vary in their capacity to inhibit/enhance tumor cell growth in vitro. 957 18

As reported previously, cyclophosphamide plus tumor necrosis factor-alpha treatment of C57BL/6 mice bearing advanced EL4 lymphoma induced approx. 60% long-term (i.e., >60 days) survivors. These mice developed protective immunity, as evidenced by 1) rejection (100% survival) of EL4 tumor re-implanted on day 60 (day 0 = initial tumor implantation); and 2) development of significant levels of specific EL4 tumor cell killing activity by both splenocytes and thymocytes. Using this model, age-related changes in functionally and phenotypically definable thymocyte subsets were assessed. In thymocytes from 90 to 308 day survivors, specific immune memory was long term; both CD4+ and CD8+ cells were required for the ex vivo stimulation of lytic activity, but the specific anti-EL4 cytotoxic effector was CD4-CD8+. On day 520, the surviving mice were randomized into 2 groups. One group received a second re-challenge with EL4 tumor cells and all survived. The other group was sacrificed on day 520. Their thymocytes, exposed to X-irradiated EL4, developed anti-EL4 lytic activity and, in comparison with thymocytes of young and age-matched control mice, were markedly enriched in CD4-CD8+CD44+ cells. On day 625, thymocytes from the survivors of the day 520 re-challenge were evaluated and were found to have developed specific anti-EL4 lytic activity. Phenotypically, they had returned toward the pattern seen in age-matched control mice although CD4-CD8+CD44+ cells remained increased. These mice were > or = 2 years old, the median life span of C57BL/6 mice. Thus, mice cured of tumor by an immuno-modulating regimen rejected re-implanted primary tumor and maintained specific thymic anti-tumor immune memory for life.
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PMID:Thymic anti-tumor effectors in mice cured of lymphoma by cyclophosphamide plus TNF-alpha therapy: phenotypic and functional characterization up to 20 months after initial tumor inoculation. 959 Jan 37

Anaplastic large cell lymphomas (ALCL) are a heterogeneous group of CD30+ large cell lymphomas; the most characteristic type have a T or null cell phenotype, often express epithelial membrane antigen (EMA) and cytolytic lymphocyte markers, and often possess a nonrandom t(2;5)(p23;q35) chromosomal translocation. We studied 22 (19 T, 1 null, 2 B cell) ALCL, including four primary cutaneous ALCL (PC-ALCL), for the expression of TIA-1, the cytotoxic T lymphocyte (CTL) or natural killer (NK) cell-associated antigens CD4, CD8, betaF1, TCRdelta1, CD56, and CD57, the ALCL-associated antigens p80 and EMA, and the Hodgkin's disease-associated marker CD15 to better define the relationship of these markers to histological subtype, primary site, and patient clinical characteristics. TIA-1 expression was seen in 12 of 20 (60%) T or null cell ALCLs with a cytoplasmic, granular distribution. Ultrastructural studies showed cytotoxic-type granules (dense core, multivesicular, and intermediate types) with TIA-1 localized to granules on immunogold labeling. TIA-1 staining strongly correlated with young patient age (< or = 32 years, P < .05) and EMA expression (P < .05). Excluding the four PC-ALCL cases, TIA-1 staining also correlated with p80 expression (P < .05) in all of the T cell cases. Three CD15+ cases were TIA-1-. TIA-1 expression in T or null cell ALCL was seen in all morphological subtypes (2 of 2 small cell variant, 3 of 4 monomorphic variant, and 7 of 14 pleomorphic variant) and primary tumor sites (6 of 14 nodal, 2 of 4 primary cutaneous, 2 of 2 bone, and 2 of 2 soft tissue). TIA-1+ granules were seen in all subsets: 5 of 6 CD4+, 1 of 2 CD8+, 4 of 8 CD56+, and 1 of 2 CD57+ ALCL. Of note, 4 of 10 T or null cell ALCL expressed gammadelta T-cell receptors (TCR), whereas only 1 of 10 T or null cell ALCL was alphabeta TCR+; TCR were not detected in five cases. TIA-1 was expressed by 3 of 4 gammadelta TCR+ ALCL and 1 of 1 alphabeta TCR+ ALCL. These data support a cytotoxic lymphocyte phenotype in most T or null cell ALCL and suggest that some T cell ALCL are derived from cytolytic CD4+ T cells, gammadelta T cells, or NK-like (CD56+ or CD57+) T cells.
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PMID:The expression of TIA-1+ cytolytic-type granules and other cytolytic lymphocyte-associated markers in CD30+ anaplastic large cell lymphomas (ALCL): correlation with morphology, immunophenotype, ultrastructure, and clinical features. 1002 54

Whereas transplantable tumors can be readily cured with immunotherapeutic approaches, similar therapies in cancer patients have been less effective. This difference may be explained by an immunosuppression resulting from the presence of a slowly growing primary tumor in the patient, whereas the immune system in a mouse with a rapidly proliferating transplantable tumor would be less affected. As a more appropriate model to the immune dysfunction in patients, slowly progressing primary tumors were induced by the carcinogen methylcholanthrene (MC) in mice. Their ability to induce immunosuppression in T cells and natural killer (NK) cells was compared to that of rapidly growing transplanted MC-induced tumors. The results demonstrate that mice bearing primary MC tumors had significantly diminished T-cell and NK-cell functions, impaired capacity to produce Th1 cytokines, and markedly reduced levels of the signal-transducing zeta chain in T cells and NK cells, similar to that described in cancer patients. Moreover, a substantial number of CD8+ T cells in mice with large primary MC tumors were undergoing apoptosis, correlating with alterations in CD4/CD8 ratios. In contrast, T cells and NK cells from mice bearing rapidly growing transplanted tumors were only marginally affected. These findings could explain the apparent discrepancy between the consistent findings of a diminished immune response and alterations in signal transduction in cancer patients as compared to the less reproducible observations in murine transplantable tumors. In addition, they could explain the differences in the high efficacy of immunotherapy in mice with transplantable tumors and the low therapeutic results in cancer patients.
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PMID:Primary chemically induced tumors induce profound immunosuppression concomitant with apoptosis and alterations in signal transduction in T cells and NK cells. 1038 60

The lymphocyte activation gene-3 (LAG-3) product is an MHC class II ligand related to CD4. We investigated whether LAG-3 could be used in vivo to stimulate MHC class II(+) antigen-presenting cells (APC), such as resident macrophages or dendritic cells known to play a crucial role in processing and presenting of antigens to the immune system. We first introduced human (h) LAG-3 or mouse LAG-3 into three types of tumor cells (MCA 205, TS / A and RENCA) to evaluate its capacity to stimulate a tumor-specific immune response in vivo. In contrast to the progressive growth of wild-type cells in syngeneic mice, LAG-3-transfected tumors completely regressed or their growth was markedly reduced. Mice were significantly to completely protected against a rechallenge with parental tumor cells. Protection induced by hLAG-3(+) tumor cells involved recruitment of a CD8(+) T cell response since nu / nu mice and CD8-depleted mice did not reject tumors, and a systemic tumor-specific CTL activity was induced. Co-administration of soluble LAG-3 with wild-type tumor cells also markedly reduced primary tumor growth. Interestingly, immunization with LAG-3(+) tumor cells or co-administration of soluble LAG-3 with irradiated wild-type tumor cells reduced the growth of pre-established tumors. We therefore suggest that LAG-3 could be used as a vaccine adjuvant for its ability to trigger APC via MHC class II molecules.
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PMID:Lymphocyte activation gene-3 induces tumor regression and antitumor immune responses. 1060 94

One objection to using cell cultures for studying the proliferation of tumors is the potential for phenotypic changes that may occur in vitro. Here, we compared the antigen pattern expression of cultured meningioma cells with that of the primary tumor. Cell cultures established from 9 intracranial meningiomas and deparaffinized sections of the resected tumors were analyzed for immunophenotyping with the following antibodies: vimentin, cytokeratin, epithelial membrane antigen, S-100, neuron-specific enolase, synaptophisin, factor VIII-related antigen, CD4, CD31, CD34, CD45RB, CD68-PGM1, CD68-KP, and myeloid/histiocyte antigen (MAC387). Overall, the cultured meningioma cells retained the main feature of the primary tumor, being positive both for mesenchymal antigens and for epithelial antigens. Interestingly, the cultured meningioma cells abundantly expressed the CD68 antigens at early passage. The CD68 antigens, which are normally found on hematopoietic cells like macrophages and monocytes, were not detectable on meningioma cells in situ. Our results show that phenotypic changes on human meningioma cells may occur in vitro. This phenomenon suggests caution when transposing the in vitro results to the in vivo condition.
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PMID:Phenotypic change of human cultured meningioma cells. 1113 90


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