UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our laboratory has previously reported that the adoptive transfer of highly purified lymphokine-activated killer cells (adherent-LAK, A-LAK) into Fischer 344 (F344) rats bearing established lung or liver micrometastases effectively reduced the resultant tumor growth more than 90%, leading to significant increases in animal survival (Cancer Res. 49, 1441, 1989). To begin to investigate the mechanism(s) by which A-LAK cells mediate this anti-tumor effect, we studied their migration patterns in F344 rats bearing experimentally induced lung and liver metastases as well as subcutaneous tumors. A-LAK cells which were phenotypically 95 to 100% natural killer cells/large granular lymphocytes were labeled with either 51Chromium or fluorescein diacetate (so as to be visualized microscopically). Intravenous injection of such labeled A-LAK cells did not show significant differences in their tissue distribution patterns in tumor-bearing versus normal rats, even when high levels of exogenous recombinant interleukin-2 (rIL-2) was administered. A-LAK cells first migrated to the lungs and then subsequently migrated to the liver and spleen as early as 2 to 6 hr following iv injection. The kinetics of exit of A-LAK cells from the pulmonary capillary beds was not significantly different in rats bearing 3-day micrometastases or 14-day macrometastases compared to normal rats. Moreover, the presence of metastases in the liver did not alter the extent or kinetics of entry of A-LAK cells into the liver even in the presence of exogenously administered rIL-2. Finally, in rats bearing subcutaneous tumors, no evidence could be obtained that A-LAK cells were selectively localized to the tumor site. Tissue sections of livers from metastases-bearing animals injected with fluorescein diacetate labeled A-LAK cells did not demonstrate significant numbers of A-LAK cells infiltrating tumor nests with or without the administration of exogenous IL-2. These data suggest that A-LAK cells may mediate tumor regression in vivo by direct and indirect mechanisms, possibly through the secretion of cytokines and/or the recruitment of secondary effector cells.
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PMID:In vivo migration and tissue localization of highly purified lymphokine-activated killer cells (A-LAK cells) in tumor-bearing rats. 238 92

Lymphokine (i.e., interleukin 2; IL-2)-activated killer (LAK) cells derived from normal human blood are known to destroy human tumor target cells. Accordingly, immunotherapy modalities using IL-2, either alone or in combination with LAK cells, have been evaluated for eradicating metastatic cancer. In studies conducted to characterize receptors on LAK cell membrane ultrastructures, we observed that LAK cells kill autologous human monocyte-derived macrophages (M phi). In these experiments, peripheral blood mononuclear cells of a healthy adult donor were cultured to generate LAK cells and autologous non-adherent M phi. Thereafter, conjugates were prepared by incubating for 3 h autologous populations of LAK cells and M phi. Examination of the conjugates by scanning electron microscopy (SEM) identified LAK cell-mediated killing of M phi. Moreover, SEM analysis of the LAK cell membrane architecture identified microvilli-like ultrastructures that provided a physical bridge that joined together the LAK cell and M phi. The immunological mechanism(s) underling LAK cell killing of autologous M phi is not known; nevertheless, these conjugates will provide a useful model to study membrane receptors on ultrastructures that mediate the initial stages of cytolysis that include target cell recognition and cell-to-cell adhesion. The results of our observations and the findings of other investigators who have also demonstrated LAK cell killing of autologous normal human leukocytes are discussed in the context of the association of IL-2 and IL-2-activated killer cells with side effects observed in ongoing clinical trials and with autoimmune disorders.
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PMID:Lysis of autologous human macrophages by lymphokine-activated killer cells: interaction of effector cell and target cell conjugates analyzed by scanning electron microscopy. 239 48

We have previously established an in vitro sensitization (IVS) procedure with which lymphocytes from tumor-bearing mice could be expanded and sensitized to acquire antitumor reactivity capable of mediating the regression of established pulmonary metastases from the weakly immunogenic MCA 105 murine sarcoma. Culture conditions required for the optimal generation of therapeutic effector cells were evaluated in the current study. Generation of effector cells by IVS required stimulation by intact tumor cells. Tumor cells killed by heat or disrupted by sonication were ineffective, but the antigenicity of tumor cells was not affected by gamma-irradiation. Long term established tumor cell lines could also serve as antigenic stimulator cells albeit with lower efficiency than fresh tumor cells. IL-2 was essential for cellular proliferation during IVS. The concentration of 1000 U/ml of IL-2 also induced nonspecific lymphokine-activated killer (LAK) activity. However, cytotoxic cells were generated during IVS in response to a broad range of IL-2 concentrations. At low IL-2 concentrations (2 to 10 U/ml), IVS cells were generated which displayed little or no LAK activity, had a greater therapeutic efficacy than those generated with high concentrations of IL-2 (100 to 1000 U/ml). Despite having high LAK activity, IVS cells, from cultures where IL-2 was added 3 or more days after initiation, had no therapeutic effect. Thus, the generation of therapeutic cells occurred independently of LAK cell production. Adoptive immunotherapy with IVS cells from MCA 105 tumor-bearing mice demonstrated cross-reactivity with the immunologically distinct MCA 106 but not the nonimmunogenic MCA 102 tumor. In contrast, IVS cells from MCA 106 tumor-bearing mice exhibited specific in vivo reactivity. In vitro cytotoxicity analyses revealed that IVS cells from MCA 105 and MCA 106 tumor-bearing mice were able to lyse both MCA 105 and MCA 106 target cells, but the reactivity toward inoculating tumors was highest. Considering previous findings that the MCA 105 and MCA 106 sarcomas possessed distinct tumor-specific transplantation Ag, the cross-reactivity observed in this study suggests that the immune response during progressive tumor growth may be different from that elicited in response to active immunization.
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PMID:Generation of therapeutic T lymphocytes from tumor-bearing mice by in vitro sensitization. Culture requirements and characterization of immunologic specificity. 245 Sep 25

T cell-mediated immune response against autologous melanoma cells was analyzed, at population and clonal levels, in 31 patients with recurrent and/or metastatic disease. Fresh PBL and lymph node lymphocytes (LNL) from melanoma-involved nodes were not cytotoxic against the respective melanoma cells. When activated in in vitro coculture (IVC) against the autologous melanoma cells in the presence of IL-2, a majority of the activated PBL and LNL became cytotoxic against the autologous targets. The activated effector cells were cloned in limiting dilution microcultures, and growing clones were phenotypically defined and were functionally characterized for cytotoxicity and for potential regulatory function. Functional T cell clones were obtained from 15 of 31 cases. Of these, CTL responses exhibiting cytotoxicity restricted against the autologous melanoma were seen in four cases. All four CTL clones were CD3+, CD8+, and CD4-. Three of these four CTL clones were studied extensively. All three of these CTL clones expressed MHC class I-restricted cytotoxicity. mAb anti-CD3 blocked cytotoxicity in two and enhanced cytotoxicity in the other. Neither autologous sera nor autologous nonactivated fresh PBL modulated the cytotoxic functions of the CTL clones at the effector phase. T cell lines exhibiting regulatory function were obtained in 11 cases. The regulatory T cell lines were CD3+, CD4+, and CD8-. In three cases CD4+ clones amplified the cytotoxic response in the PBL in coculture, while in eight other cases the T cell lines downregulated the cytotoxic responses. Such T cell-mediated down-regulations were either restricted to the autologous system, induced by D/DR antigens expressed by the autologous or allogeneic melanoma cells, or induced by stimulus other than D/DR antigens. Taken together, these findings clearly demonstrate the existence of T cell-mediated cytotoxic and regulatory responses against human melanoma.
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PMID:Clonal analysis of cytotoxic and regulatory T cell responses against human melanoma. 247 70

The growth, phenotype, in vitro cytolytic characteristics, and in vivo antitumor activity of murine splenocytes stimulated with anti-murine CD3 mAb in combination with IL-2 as compared with IL-2 alone was investigated. When cultured for 12 days with anti-CD3 mAb + IL-2, murine splenocytes increased 100- to 4000-fold in number compared with only 6- to 20-fold for cultures stimulated with IL-2 alone. Anti-CD3 mAb + IL-2 activated cultures developed high lymphokine-activated killer activity against NK-resistant targets including the P815 mastocytoma cell line and fresh MCA 106 sarcoma. Peak cytotoxicity on a per cell basis developed by day 8 after anti-CD3 mAb + IL-2 activation. A large proportion of the total cytolytic activity of long term anti-CD3 mAb + IL-2-stimulated cultures was related to the presence of anti-CD3 in the assay, indicating enhancement of cytotoxicity by activated CD3+ T cells. Phenotypic analysis indicated that anti-CD3 mAb + IL-2-stimulated cultures contained heterogeneous populations of T cells with increased percentages of both CD4+ and CD8+ phenotypes compared with cultures stimulated with IL-2 alone. Anti-CD3 mAb + IL-2-stimulated cells were tested for their in vivo antitumor activity by using C57BL/6 mice bearing MCA 106 sarcoma pulmonary metastases. IL-2-activated murine killer cells were given in combination with in vivo IL-2 and indomethacin, the latter of which was shown to potentiate the antitumor effect of IL-2. When given on day 5 after tumor inoculation, cell doses as low as 5 x 10(6) anti-CD3 mAb + IL-2-stimulated cells per mouse significantly reduced the number of pulmonary metastases (p less than 0.005). Thus, activation with the combination of anti-CD3 mAb + IL-2 produces rapidly expanding cultures of cytolytic cells with demonstrated in vivo antitumor efficacy.
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PMID:Anti-CD3 + IL-2-stimulated murine killer cells. In vitro generation and in vivo antitumor activity. 252 62

Successful immunotherapy with recombinant interleukin 2 (rIL-2) of mice bearing a large burden of lymphokine-activated killer-resistant disseminated SL2 lymphoma is described. When mice were challenged i.p. with 2 x 10(4) SL2 cells on day 0 and treated with daily i.p. injections of 5,000 units rIL-2 on days 3-7, no therapeutic effect was observed. However after treatment with daily IL-2 injections on day 10-14, 25% of the mice survived. Ten days after this tumor challenge more than 10(8) SL2 cells were present growing as ascitic tumor. On day 10, SL2 cells were also present as solid tumor in the greater omentum and as metastases in lungs and liver. Surviving mice were able to reject a second challenge with SL2 cells given on day 60. A second challenge with P815, another DBA/2 tumor, resulted in death of the mice due to tumor development. This finding is of particular importance as the SL2 cells are resistant to lymphokine-activated killer activity. Thus local (i.p.) injection of low dose rIL-2 can cause the systemic rejection of advanced and metastasized cancer. Our data indicate that IL-2 can strongly enhance a specific immune reaction against tumor cells.
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PMID:Immunotherapy of mice with a large burden of disseminated lymphoma with low-dose interleukin 2. 258 44

Nine children with poor prognosis neuroblastoma have been treated by continuous infusion of IL-2 and autologous LAK cells, as described previously by West et al. in adult patients. Six patients were in relapse after high-dose chemotherapy and autologous BMT and three presented with primary refractory disease after conventional therapy. Although patients were very young (median age 6 years; average weight 17 kg), infusion of IL-2, cytapheresis and reinjection of LAK cells appeared feasible with the usual and transient complications observed with IL-2. Haematological toxicity, although reversible, was more important than usually described and due to the presence of bone-marrow metastases in 8 of the 9 patients. Life-threatening toxicity was observed in only one of the admission centres and was probably due to the rapid reinjection of a very large number of activated cells. Two patients presenting with very active disease after high-dose chemotherapy and autologous or allogeneic BMT received IL-2 alone, at 120 days and at 90 days after the graft. The reactivation of grade-II GVHD was the major complication in the patient treated after an allograft, whereas no BMT-related toxicity was observed in the patient treated after the autologous BMT. Immunological modifications induced by IL-2 were very different between these patients. As expected, a preferential outgrowth of NK cells with both NK and LAK activity was observed in the patient treated just after the autograft. In contrast, in the patient treated after an allograft and in the 9 patients in relapse, T lymphocytes remained the major mononuclear cell population with a very large excess of CD8+ T cells. All patients progressed after the first induction cycle with the exception of the only patient treated after autologous BMT who reached a very good partial remission with disappearance of the local tumor and bone metastases. Although very preliminary, these data clearly show that the efficacy of IL-2 largely depends on the patient's immunological status with the optimal effect being observed when IL-2 is given in the first few months following an autograft.
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PMID:A phase-II study of adoptive immunotherapy with continuous infusion of interleukin-2 in children with advanced neuroblastoma. A report on 11 cases. 267 Feb 9

Lymphokine-activated killer (LAK)-cell therapy has emerged as a new strategy in designing protocols for the treatment of cancer. However, in its present clinical form, it has not fulfilled the early promise shown in murine models of human metastatic disease. In an attempt to gain understanding as to why this might be the case, we measured the ability of human LAK cells, generated in vitro for 4 days, to kill LAK cells from the same donor that had been exposed to IL-2 in vitro for 8 days, and vice versa. In eight separate experiments using different donors, 4-day ('early') LAK cells were able to kill syngeneic 8-day ('late') LAK cells, while late LAK cells were also able to kill early LAK cells. Strong killing was observed in both directions, which was almost total in one instance. In order to assess the development of this phenomenon, early LAK cells were tested for their ability to kill syngeneic LAK cells that were 1, 2, 3 or 4 days 'older' and the reciprocal experiment conducted using late LAK cells as effectors. The results illustrate a strong capacity for the development of syngeneic killing by human LAK cells. The possible implications of this phenomenon for the clinical administration of LAK cell/IL-2 therapy are discussed.
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PMID:Human lymphokine-activated killer cells develop syngeneic killing ability. 278 83

DBA/2 mice transplanted with the high metastatic syngeneic lymphoma variant ESb can be successfully treated by a combination of surgery and active-specific immunotherapy (ASI). The ASI procedure was applied postoperatively and involved vaccination either (1) with inactivated ESb tumor cells which had been modified by incubation with a low dose of Newcastle Disease Virus (NDV) or (2) with mutagenesis-derived immunogenic tumor variants. The analysis of the immune status of spleens from tumor-bearing or tumor-immune mice revealed important differences. The activation of tumor-specific cytotoxic T-lymphocyte precursors (CTLP) from mice with metastasis required stimulation with the specific antigen plus additional helper factors (IL-2 or NDV). The importance of second signal immune stimulation for the activation of sensitized tumor-specific CTLP in tumor-bearing mice is underlined.
Invasion Metastasis 1989
PMID:Prevention of metastatic spread by postoperative immunotherapy with virally modified autologous tumor cells. III. Postoperative activation of tumor-specific CTLP from mice with metastases requires stimulation with the specific antigen plus additional signals. 278 93

Sensitized T lymphocytes can mediate potent antitumor effects when transferred to tumor-bearing animals. Employing the MCA 105 and MCA 106 sarcomas, we were able to generate antitumor effector cells by immunization of syngeneic mice with tumor cells admixed with Corynebacterium parvum. These immune splenocytes could be further sensitized and expanded in culture by the in vitro sensitization (IVS) method utilizing tumor stimulator cells and IL-2. Adoptive immunotherapy of pulmonary metastases mediated by noncultured splenocytes from immunized mice or immune IVS cells showed exquisite specificity between the two sarcomas. These results demonstrate the presence of tumor-specific antigens on MCA 105 and MCA 106 tumor cells which can serve as target molecules for immunotherapy. Recently, we have generated therapeutic T lymphocytes from mice bearing progressively growing tumors by the IVS method. However, IVS cells from tumor-bearing mice showed cross-reactivity between the MCA 105 and 106 sarcomas in adoptive immunotherapy experiments. Since these IVS cells did not affect other control tumors, the limited cross-reactivity suggests the presence of common tumor-associated antigens on MCA 105 and MCA 106 tumor cells which can also serve as the target for tumor rejection. Therefore, immune responses to progressive tumor growth and to immunization are distinct with respect to antigen recognition by T lymphocytes.
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PMID:Distinct immunologic specificity of tumor regression mediated by effector cells isolated from immunized and tumor-bearing mice. 278 60

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