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)

Adoptive cellular immunotherapy, infusions of interleukin 2 (IL-2) in conjunction with in vitro-activated killer cells, has brought new hope to patients with cancer. The broad application of this strategy, however, is constrained by the need for repeated leukapheresis and by the labor-intensive process of in vitro activation of cells. Also, current protocols generally use nonphysiological and toxic concentrations of IL-2. Identification of an in vivo stimulant that renders T cells responsive to physiologic concentrations of IL-2 represents a potential improvement over existing approaches. We have determined whether in vivo administration of monoclonal antibodies (mAbs) directed at the T-cell surface protein CD3 induces T-cell responsiveness to IL-2, stimulates cytolytic molecular programs of natural killer cells and cytotoxic T cells, and induces tumor regression. These hypotheses were explored in a murine hepatic MCA-102 fibrosarcoma model. We report that in vivo administration of anti-CD3 mAbs plus IL-2 results in intrahepatic expression of mRNA-encoding perforin, cytotoxic T-cell-specific serine esterase, and tumor necrosis factor alpha. Anti-CD3 mAbs alone or IL-2 alone failed to induce or induced minimal expression of these molecular mediators of cytotoxicity. The anti-CD3 mAbs plus IL-2 regimen also resulted in a significantly smaller number of hepatic metastases and a significantly longer survival time of tumor-bearing mice, compared to treatment with anti-CD3 mAbs alone or IL-2 alone. Our findings suggest that a regimen of anti-CD3 mAbs plus IL-2 is a more effective antitumor regimen compared with anti-CD3 mAbs alone or IL-2 alone and advance an alternative immunotherapy strategy of potential value for the treatment of cancer in humans.
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PMID:Immunotherapy with anti-CD3 monoclonal antibodies and recombinant interleukin 2: stimulation of molecular programs of cytotoxic killer cells and induction of tumor regression. 805 30

Natural killer (NK) cells have been recognized as effector cells responsible for the elimination of blood-borne metastases. Newer evidence suggests that NK cells play an important role in the control of solid tissue metastases. NK cells have the ability to kill a broad variety of fresh or cultured "NK-resistant" tumor cell targets by mechanisms that are not dependent on perforin or granzyme secretion. Also, a subset of interleukin 2 (IL-2)-activated NK cells, which are called A-NK cells, is capable of extravasation, movement in solid tissues, localization to the sites of metastases, and killing tumor cells in situ. Studies in experimental animals and in cancer patients indicate that systemic adoptive immunotherapy with A-NK cells and IL-2 is a tolerable and promising treatment for advanced solid tissue as well as hematologic neoplasms. In this article, antitumor functions of A-NK cells in vitro and in vivo are reviewed, and the mechanisms responsible for their antitumor effects are considered.
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PMID:Antitumor Functions of Natural Killer Cells and Control of Metastases 881 92

The response rate to IL-2 immunotherapy, currently used in the treatment of metastatic renal cell cancer, is limited. Based on our earlier demonstration that a combined regimen of monoclonal antibodies directed at the T cell surface protein CD3 (anti-CD3 mAbs) and IL-2 is synergistic in constraining tumor progression in a murine fibrosarcoma hepatic metastasis model, we have explored the efficacy of an anti-CD3 mAbs plus IL-2 regimen in a murine renal cell cancer model. Our studies demonstrate that a regimen of anti-CD3 mAbs plus IL-2 is superior to treatment with anti-CD3 mAbs alone or IL-2 alone in reducing the number of pulmonary metastases and in prolonging survival. Moreover, the efficacious regimen is associated with heightened intrapulmonary expression of mRNA encoding cytotoxic attack molecules (perforin, granzyme B) and immunoregulatory cytokines (IL-4, IL-10 and IFN- gamma).
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PMID:Immunostimulatory therapy with anti-CD3 monoclonal antibodies and recombinant interleukin-2: heightened in vivo expression of mRNA encoding cytotoxic attack molecules and immunoregulatory cytokines and regression of murine renal cell carcinoma. 914 77

We provide the first demonstration, using experimental and spontaneous models of metastasis in C57BL/6 (B6) (RM-1 prostate carcinoma) and BALB/c (DA3 mammary carcinoma) mice, that tumor metastasis is primarily controlled by perforin-dependent cytotoxicity mediated by NK1.1+ cells. MHC class Ilow RM-1 and DA3 tumor cells were sensitive in vitro to Fas-mediated lysis or spleen NK cells in a perforin-dependent fashion. Perforin-deficient NK cells did not lyse these tumors, and perforin-deficient mice were 10-100-fold less proficient than wild-type mice in rejecting the metastasis of tumor cells to the lung. Fas ligand mutant gld mice displayed uncompromised protection against tumor metastasis. Depletion of NK subsets resulted in greater numbers of metastases than observed in perforin-deficient mice, suggesting that perforin-independent effector functions of NK cells may also contribute to protection from tumor metastasis.
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PMID:Perforin is a major contributor to NK cell control of tumor metastasis. 1035 83

We have evaluated the NK cell antitumor activity in lymphotoxin (LT)-deficient mice. Both NK cell-mediated tumor rejection and protection from experimental metastases were significantly compromised in LT-alpha-deficient mice. Analysis of LT-alpha-deficient mice revealed that the absolute number of alphabetaTCR- NK1.1+ NK cells was reduced in bone marrow and thymus, but with overall proportional decreases in other hemopoietic organs. In addition, the antitumor potential of alphabetaTCR- NK1.1+ cells, as determined by their lytic capacity and perforin expression, was reduced 1.5- to 3-fold in LT-alpha-deficient mice, as compared with wild-type mice. Combined defects in NK cell development and effector function contribute to compromised NK cell antitumor function in LT-alpha-deficient mice.
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PMID:Multiple deficiencies underlie NK cell inactivity in lymphotoxin-alpha gene-targeted mice. 1041 34

The adoptive transfer of tumor-specific effector T cells can result in complete regression and cure mice with systemic melanoma, but the mechanisms responsible for regression are not well characterized. Perforin- and Fas ligand (APO-1/CD95 ligand)-mediated cytotoxicity have been proposed as mechanisms for T cell-mediated tumor destruction. To determine the role of perforin and Fas ligand (FasL) in T cell-mediated tumor regression in a murine melanoma model, B16BL6-D5 (D5), we generated D5-specific effector T cells from tumor vaccine-draining lymph nodes of wild type (wt), perforin knock out (PKO), or FasL mutant (gld) mice and treated established D5 metastases in mice with the same genotype. Effector T cells from wt, PKO and gld mice induced complete regression of pulmonary metastases and significantly prolonged survival of the treated animals regardless of their genotype. Complete tumor regression induced by PKO effector T cells was also observed in a sarcoma model (MCA-310). Furthermore, adoptive transfer of PKO and wt effector T cells provided long-term immunity to D5. Therapeutic T cells from wt, PKO, or gld mice exhibit a tumor-specific type 1 cytokine profile; they secrete IFN-gamma, but not IL-4. In these models, T cell-mediated tumor regression and long-term antitumor immunity are perforin and FasL independent.
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PMID:Tumor regression after adoptive transfer of effector T cells is independent of perforin or Fas ligand (APO-1L/CD95L). 1051 Mar 88

Perforin-mediated lysis and secretion of IFN-gamma belong to the key effector functions of CD8 T cells. To compare the anti-tumor activity of these two mechanisms, we used B16.F10 melanoma cells (B16GP33) expressing the cytotoxic T cell epitope GP33 and T cell receptor transgenic (TCR-tg) mice specific for GP33 and deficient in perforin or IFN-gamma. B16GP33 tumor cells, injected either i.v. to induce experimental metastases or s.c., were similarly controlled in both wild-type and perforin-deficient, but not in IFN-gamma-deficient TCR-tg mice. A similar result was obtained when the therapeutic efficacy of adoptively transferred TCR-tg effector cells from these mice was examined in the corresponding perforin- or IFN-gamma-deficient C57BL/6 hosts. Criss-cross experiments further revealed that IFN-gamma production by the host strongly influenced the efficiency of the adoptively transferred effector cells. In contrast to the potent ability of GP33-specific effector cells to mediate B16GP33 tumor regression without perforin, GP33-specific memory cells, induced with recombinant vaccinia virus expressing GP33, failed to control B16GP33 tumor growth in the absence of perforin. In conclusion, our data demonstrate a crucial role for IFN-gamma in B16GP33 tumor cell elimination in vivo and indicate a differential requirement of perforin by effector versus memory CD8 T cells in anti-tumor immunity.
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PMID:Differential requirement of perforin and IFN-gamma in CD8 T cell-mediated immune responses against B16.F10 melanoma cells expressing a viral antigen. 1100 83

Experimental pulmonary metastases have been successfully treated by adoptive transfer of tumor-sensitized T cells from perforin knockout (KO) or Fas/APO-1 ligand(KO) mice, suggesting a prominent role for secretion of cytokines such as IFN-gamma. In the present study we confirmed that rejection of established methylcholanthrene-205 (MCA-205) pulmonary metastases displayed a requirement for T cell IFN-gamma expression. However, this requirement could be obviated by transferring larger numbers of tumor-sensitized IFN-gamma (KO) T cells or by immunosensitizing sublethal irradiation (500 rad) of the host before adoptive therapy. Extrapulmonary tumors (MCA-205 s.c. and intracranial) that required adjunct sublethal irradiation for treatment efficacy also displayed no requirement for host or T cell expression of IFN-gamma. Nonetheless, rejection of MCA-205 s.c. tumors and i.p. EL-4 tumors, but not MCA-205 pulmonary or intracranial tumors, displayed a significant requirement for T cell perforin expression (i.e., CTL participation). The capacity of T cells to lyse tumor targets and secrete IFN-gamma in vitro before adoptive transfer was nonpredictive of the roles of these activities in subsequent tumor rejection. Adoptive therapy studies employing KO mice are therefore indispensable for revealing a diversity of tumor rejection mechanisms that may lack in vitro correlation due to delays in their induction. Seemingly contradictory KO data from different studies are reconciled by the capacity of anti-tumor T cells to rely on alternative mechanisms when treated in larger numbers, the variable participation of CTL at different anatomic locations of tumor, and the apparent capacity of sublethal irradiation to provide a therapeutic alternative to host or T cell IFN-gamma production.
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PMID:T cell-mediated tumor rejection displays diverse dependence upon perforin and IFN-gamma mechanisms that cannot be predicted from in vitro T cell characteristics. 1112 Aug 42

The mechanism by which tumors are rejected following the adoptive transfer of tumor-specific T cells is not well characterized. Recent work has challenged the requirement for cytotoxicity mediated by either the perforin/granzyme or Fas/Fas ligand pathway in T cell-mediated tumor regression. Many reports, including ours, suggest that tumor-specific production of IFN-gamma is critical for T cell-mediated tumor regression. However, in most of these studies the evidence to support the role for IFN-gamma is only indirect. We have directly examined the requirement for IFN-gamma using IFN-gamma knockout (GKO) mice. The results show an interesting dichotomy in the requirement for IFN-gamma: Antitumor immunity induced by active-specific immunotherapy (vaccination) required IFN-gamma, whereas adoptive immunotherapy did not. In GKO mice vaccination with the GM-CSF gene-modified B16BL6-D5 tumor (D5-G6) failed to induce protective immunity against parental D5 tumor. However, adoptive transfer of effector T cells from GKO mice cured 100% of GKO mice with established pulmonary metastases and induced long term antitumor immunity and depigmentation of skin. Furthermore, in vivo neutralization of IFN-gamma by mAb treatment or adoptive transfer into IFN-gamma receptor knockout mice failed to block the therapeutic efficacy of effector T cells generated from wild-type or perforin knockout mice. Analysis of regressing metastases revealed similar infiltrates of macrophages and granulocytes in both wild-type and GKO mice. These results indicate that in this adoptive immunotherapy model, neither a direct effect on the tumor nor an indirect effect of IFN-gamma through activation of myeloid or lymphoid cells is critical for therapeutic efficacy.
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PMID:Immunotherapy of melanoma: a dichotomy in the requirement for IFN-gamma in vaccine-induced antitumor immunity versus adoptive immunotherapy. 1139 Apr 88

Natural killer (NK) cells may modulate the development of adaptive immune responses, but until now there has been little evidence to support this hypothesis. We investigated the primary and secondary immunity elicited by various tumor cell lines that express CD70 and interact with CD70 ligand (CD27), which is constitutively expressed on NK cells. CD70 expression enhanced primary tumor rejection in vivo as well as T cell immunity against secondary tumor challenge. Primary rejection of major histocompatibility complex (MHC) class I-deficient RMA-S.CD70 tumor cells was mediated by NK cells and perforin- and interferon-gamma-dependent mechanisms. This NK cell-mediated process also efficiently evoked the subsequent development of tumor-specific cytotoxic and T helper type 1 responses to the parental, MHC class I-sufficient, RMA tumor cells. Thus CD27-CD70 interactions provide a key link between innate NK cell responses and adaptive T cell immunity.
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PMID:Induction of tumor-specific T cell memory by NK cell-mediated tumor rejection. 1174 85

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