UMLS:C0598934 - FACTA Search

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Query: UMLS:C0598934 (tumor growth)
58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study addresses the role of MHC class I molecules in the rejection of tumor grafts by SCID mice. Tumor cell lines, their corresponding MHC class I transfectants, and MHC class I-deficient mutants were inoculated to SCID mice. This allowed a study of tumor rejection responses in an environment with normal numbers of natural killer cells but largely devoid of functional T and B cells. C.B-17 (H-2d) SCID mice were found to reject low (10(2)) but not high (10(4)) doses of allogeneic (H-2b) tumor cells. The introduction of H-2Dd into such allogeneic tumor cells abrogated the rejection response with progressive tumor growth as a consequence. Introduction of H-2Kd or Ld had no or only marginal effects. The protective ability of H-2Dd was mapped to the alpha 1/alpha 2 domains of the molecule. H-2Dd protected allogeneic tumors from rejection also in C3H SCID mice of the H-2k haplotype, demonstrating that this ability was not dependent on H-2Dd expression in the host. Expression of endogenous H-2Kb and/or Db molecules partially protected wild-type allogeneic tumor cells from rejection since mutant allogeneic cells, devoid of class I expression, were rejected even after high-dose inoculation. Introduction of either allogeneic or xenogeneic class I molecules did not lead to rejection of otherwise MHC class I syngeneic (H-2d) tumor cells. The observed tumor cell rejection in SCID mice was dependent on natural killer cells. After depletion of asialo-GM1+ cells, all inoculated tumor cell lines grew progressively, independently of MHC class I expression. These results are compatible with a model where expression of certain, but not all, class I molecules protect from natural killer cell-mediated rejection. There was no evidence for rejection occurring as a consequence of the expression of allogeneic or xenogeneic class I molecules on the grafted cells. MHC class I expression may thus influence tumor cell recognition in mice lacking T-cell receptor expression.
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PMID:Rejection of tumors in mice with severe combined immunodeficiency syndrome determined by the major histocompatibility complex. Class I expression on the graft. 772 58

Because of the severe toxicity of systemically applied tumor necrosis factor (TNF) in cancer patients, considerable efforts have been made to construct mutant TNF molecules, which retain antitumor activity, but display less toxicity. We compared tumor suppression in relation to the toxic effects of human TNF and human lymphotoxin (LT) in mice. The genes for these two cytokines were expressed in Chinese hamster ovary (CHO) cells. Intraperitoneal injection of parental and gene modified CHO cell lines producing similar amounts of biologically active TNF or LT, respectively, into nude mice showed that CHO-TNF cells killed the mice more rapidly than parental cells, but that CHO-LT tumor bearing mice lived significantly longer than mice injected with parental cells. Injection of the cells subcutaneously into severe combined immunodeficiency (SCID) mice allowed direct comparison of tumor suppression and toxic effects of the two cytokines. Both TNF and LT produced by the tumor effectively suppressed tumor growth by an indirect mechanism, LT being at least as effective as TNF. However, mice bearing CHO-TNF cells either died rapidly or developed cachexia, as shown by weight loss. In contrast, mice injected with CHO-LT cells never rapidly died and became cachectic much later than CHO-TNF cell injected animals, though serum levels of LT were higher than those of TNF. Analysis of soluble forms of TNF receptors (TNF-R1 and TNF-R2) in sera of tumor bearing mice showed that soluble TNF-R1 was downregulated in both CHO-TNF and CHO-LT, in comparison with CHO-neo cell injected mice and to normal SCID mice. The soluble form of TNF-R2 was induced by CHO cell lines. In CHO-TNF cell injected SCID mice, serum levels were significantly increased, whereas in mice injected with CHO-LT cells, serum levels of soluble TNF-R2 were decreased. Together, our results show a higher therapeutic index of LT compared with TNF.
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PMID:Human lymphotoxin has at least equal antitumor activity in comparison to human tumor necrosis factor but is less toxic in mice. 774 38

Malignant cells possess a high degree of proteolytic activity in which the plasminogen activator system plays an important role. An increased expression of urokinase type plasminogen activator (uPA) is of significance for degradation of the extracellular tumor matrix, facilitating invasiveness and growth. Inhibition of the active site of uPA makes it possible to evaluate the significance of uPA in tumor growth. We report here experiments on a uPA-producing human prostate xenograft (DU 145) using a competitive inhibitor of uPA, p-aminobenzamidine. In vitro experiments with DU 145 cells showed that p-aminobenzamidine caused a dose-dependent inhibition of uPA activity. DU 145 cells were inoculated s.c. in SCID mice and, once tumors were established, treatment with p-aminobenzamidine added to drinking water was started and lasted for 23 days. Mice receiving 250 mg/kg/day of p-aminobenzamidine showed a clear decrease in tumor-growth rate compared to the non-treated mice, resulting in 64% lower final tumor weight. In addition, uPA-antigen levels in the membrane fractions of DU 145 tumors from p-aminobenzamidine-treated mice were found to be decreased by 59%. We also show that p-aminobenzamidine has an anti-proliferative effect in cell culture at low cell number, correlating with a dose-dependent decrease in uPA production. In conclusion, we show that a low-molecular-weight uPA-inhibitor, p-aminobenzamidine, has a growth-inhibitory effect on a solid uPA-producing tumor.
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PMID:The urokinase inhibitor p-aminobenzamidine inhibits growth of a human prostate tumor in SCID mice. 775 60

This study investigates a new approach to adoptive therapy of glioblastoma using as antitumor effector a potent major histocompatibility complex nonrestricted killer clone (TALL-104) established from a patient with acute T-lymphoblastic leukemia. The human glioblastoma cell line U-87 MG could be successfully engrafted in mice with severe combined immunodeficiency using the i.p., intracerebral, and s.c. routes. The latter model was elected to evaluate therapy based on its high reproducibility. Tumor growth in mice engrafted s.c. was proportionally associated with splenomegaly and leukocytosis. Multiple transfers of lethally irradiated (non-proliferating) TALL-104 cells at the tumor site resulted in about 50-70% inhibition of tumor growth as compared to untreated mice, with concomitant reduction of splenomegaly and leukocytosis. The antitumor effects were inversely proportional to the size of the tumor at initiation of therapy, 90-100% inhibition occurring in severe combined immunodeficiency mice treated from the day of U-87 MG challenge. Neither splenomegaly nor leukocytosis developed in animals in which tumor growth was completely blocked. Stimulation of TALL-104 cells with either interleukin 2 or interleukin 12 prior to irradiation and adoptive transfer increased the antitumor efficacy of the killer cells to about the same extent. The potential usefulness of irradiated TALL-104 cells in adjuvant therapy against glioblastomas and other well-localized tumors is discussed.
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PMID:Treatment of experimental glioblastoma with a human major histocompatibility complex nonrestricted cytotoxic T cell line. 780 48

Mice with severe combined immunodeficiency reconstituted with human splenic tissue (SCID-sp) taken from 22 patients with advanced gastric cancer and 8 with idiopathic thrombocytopenic purpura (ITP) received subsequent implants of COLO 205 human colon cancer cells. A human immunoglobulin G (IgG) reactive against COLO 205 cells (COLO 205-reactive human IgG) was produced by SCID-sp mice reconstituted with splenic tissue from 8 of the 22 gastric cancer patients, but from none of the ITP patients. Tumor growth in SCID-sp mice which produced the COLO 205-reactive human IgG was greater (tumor weight range, 106-143%) than that in the control SCID mice, while that in SCID-sp mice reconstituted with splenic tissue from 8 ITP patients and that in SCID-sp mice reconstituted with splenic tissue from the other 14 gastric cancer patients which did not produce the COLO 205-reactive IgG were considerably lower and slightly lower, respectively, than those in the control SCID mice (tumor weight range, 56.7-108% and 79.4-119%, respectively). When the COLO 205-reactive human IgG titers in the sera of the SCID-sp mice, expressed as a ratio of the titers in the corresponding patient's serum, were plotted against the tumor weight in each SCID-sp mouse, significant correlations were observed in those that received splenic tissues from 6 of the 8 patients in which the COLO 205-reactive human IgG was produced. Furthermore, the tumor growth rates increased in proportion to the increased COLO 205-reactive human IgG titers in SCID-sp mice. Therefore, the SCID-sp model should be useful to study the paradoxical tumor growth possibly due to impaired immune reaction in patients with advanced gastric cancer.
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PMID:Paradoxical enhancement of tumor growth in mice with severe combined immunodeficiency which produce a human immunoglobulin G reactive against tumor cells. 810 91

BALL-1, a human B leukemia/lymphoma cell line, was transplanted into nude and SCID mice under various conditions. The transplantation was substantially improved by preadaptation of BALL-1 by serial passages in newborn and young nude mice. We were able to establish the desirable conditions where 100% of SCID and nude mice that were inoculated i.p. with various doses of the adapted BALL-1 (termed BALL-1a) developed tumors. Tumors in SCID mice were disseminated to various tissues in a manner analogous to tumors in patients with B leukemia/lymphoma, whereas tumors in nude mice were not as widely disseminated and grew mainly as ascites. Flow cytometric analyses showed that all of the 11 tested cell surface markers of the parental BALL-1 were well maintained on the tumor cells recovered from the SCID and nude mice. The utility of the developed tumor models for the therapeutic studies was investigated by i.p. or i.v. administration of an anti-B leukemia/lymphoma monoclonal antibody, termed SN7 (IgG1 kappa), and SN7 immunotoxin (IT) that was prepared by conjugating SN7 to ricin A chain (RA) or deglycosylated RA (dgRA). In the nude mouse model study, SN7-RA that had been administered i.p. suppressed the tumor growth completely in all of the treated mice (n = 5) without any sign of tumor or undesirable side effects for as long as followed (i.e., 350 days), whereas unconjugated SN7 showed only a slight therapeutic effect. A control RA conjugate was not effective. In the SCID mouse model studies, several sets of experiments were carried out by i.p. or i.v. administration of IT, monoclonal antibody, or control IT. In the first three sets of experiments, SCID mice inoculated with 1.1 x 10(6) BALL-1a cells received an i.p. administration of phosphate-buffered saline or three different doses (i.e., 4 x 10 micrograms, 4 x 20 micrograms, and 4 x 30 micrograms) of therapeutic agents (SN7-RA and SN7). Virtually an identical result was obtained from the three experiments. All of the phosphate-buffered saline control group mice (n = 15) died within 35 days post tumor inoculation. In contrast, all of the mice that were treated with SN7-RA (n = 19) or with SN7 (n = 15) survived for as long as followed (i.e., 250 days). However, the unconjugated SN7 was less effective than SN7 IT for tumor suppression in SCID mice that were inoculated with a larger tumor burden (i.e., 4 x 10(7) BALL-1a cells).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Establishment of new SCID and nude mouse models of human B leukemia/lymphoma and effective therapy of the tumors with immunotoxin and monoclonal antibody: marked difference between the SCID and nude mouse models in the antitumor efficacy of monoclonal antibody. 816 98

Liarozole fumarate (R85,246), a novel benzimidazole derivative, reduced s.c. and bone metastasis tumor growth by the androgen-independent PC-3ML-B2 human prostatic carcinoma clone in SCID mice. The drug inhibited cell invasion of Matrigel in Boyden chamber chemotactic assays and the secretion of type IV collagenase. In vitro, liarozole failed to inhibit cell proliferation and cell attachment to various substrates (Matrigel, laminin, type IV collagen, and fibronectin). In vivo, the drug also blocked type IV collagenase production in established s.c. tumors. Liarozole has been postulated by others (R. De Coster, W. Wouters, R. Van Ginckel, D. End, et al. J. Steroid Biochem. Mol. Biol., 43: 197-201, 1992) to inhibit retinoic acid catabolism. Our data indicate that liarozole treatment can increase the tumor retinoic acid levels in vivo. Studies of retinoic acid revealed that the drug independently reduced tumor growth in vivo and inhibited cell invasion of Matrigel and the secretion of collagenase IV. Surprisingly, liarozole and retinoic acid failed to exhibit measurable synergistic activity both in vitro and in vivo. Taken together these data suggest that liarozole might inhibit retinoic acid catabolism in vivo and consequently have significant therapeutic value as an anti-prostatic tumor agent.
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PMID:Liarozole and 13-cis-retinoic acid anti-prostatic tumor activity. 831 15

Expression of cytokines in tumor cells provides a sensitive modality to analyze the consequences of local cytokines in vivo on tumor infiltrating cells and tumorigenicity. We have transfected Chinese hamster ovary (CHO) cells with an interleukin 10 (IL-10) expression vector. CHO-IL10 cells although unaltered with respect to their in vitro growth lost tumorigenicity, both in nude and in SCID mice and in an IL-10 dose dependent manner. In addition, CHO-IL10 cells suppressed the growth of equal numbers of coinjected but not of contralaterally injected CHO cells. Immunohistology with anti-CR3/Mac-1 and anti-Mac-3 monoclonal antibodies revealed that CHO tumors were substantially infiltrated by macrophages. However, in CHO-IL10 tumors macrophages were virtually absent within the tumor tissue. Our results suggest that IL-10 indirectly suppresses tumor growth of certain tumors by inhibiting infiltration of macrophages which may provide tumor growth promoting activity.
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PMID:Interleukin 10 transfected into Chinese hamster ovary cells prevents tumor growth and macrophage infiltration. 836 5

Transfection of tumor cells with a vector containing the entire coding sequence of human interleukin-2 (hIL-2) was previously shown to convert the tumorigenic murine fibrosarcoma line CMS-5 into a non-tumorigenic line. The failure of the IL-2-secreting tumor to grow in conventional (immunocompetent) mice was attributed to the activation of CD8+ T cells that exhibited tumor specificity and memory. In order to determine whether or not the IL-2 produced by the tumor may be activating tumor cytotoxic effector cells other than B or T cells we have repeated this study using immunodeficient SCID and SCID-beige mice as syngeneic tumor recipients. In contrast to the rapid growth of the wild-type tumor, the hIL-2-transfected cells (N2A/IL2/CMS5) did not grow, or grew more slowly and regressed, in the mice that lack functional B and T cells. The inhibition of tumor growth associated with the local release of IL-2 was reversed in mice treated with antiasialo-GM1 antibodies specific for natural killer (NK) lineage cells. In contrast to the studies with conventional mice, the IL-2-dependent effector cells in the immunodeficient mice exhibited no evidence of memory. In vitro analysis of spleen cells from tumor-bearing mice revealed the presence of effector cells able to lyse YAC-1 target cells as well as the wild-type CMS-5 and the IL-2-transfected variant tumor lines but unable to lyse P815 cells. The pattern of selective target cell killing and the kinetics of killing were indistinguishable from those observed using tumor necrosis factor alpha (TNF alpha) the mediator associated with natural cytotoxicity cell killing of tumor cells. Histopathology of the IL-2-secreting tumors in SCID mice reveals the presence of infiltrating lymphoid cells and macrophages that were not observed in the CMS-5 tumors. Consistent with the notion that the tumor killing in the SCID mice was mediated by TNF alpha, mice bearing IL-2-secreting tumors had elevated levels of serum TNF alpha and little or no effector cell activity, or TNF alpha was found in tumor-bearing mice treated with anti-asialo-GM1 antibody. The results indicate that the cytokine-induced tumor regression observed in the IL-2-transfected tumors is a more complex phenomenon than previously recognized and one that is mediated by effector cells of the NK cell and/or monocyte/macrophage lineages, in addition to CD8+ T cells.
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PMID:Antitumor response independent of functional B or T lymphocytes induced by the local and sustained release of interleukin-2 by the tumor cells. 850 Jan 9

Tumor growth is dependent on new blood vessel formation. Inhibition of vascular endothelial growth factor (VEGF), an endothelial cell mitogen and angiogenic factor secreted by a variety of tumors and tumor cell lines, is sufficient to inhibit primary tumor growth. In the present study, we examined the effect of inhibiting VEGF on tumor cell micrometastasis. A transfectant of A431 (a human epidermoid carcinoma cell line) expressing chloramphenicol acetyltransferase (CAT) was injected s.c. into severe combined immunodeficiency (scid) mice, which were then sacrificed after 6 weeks. The presence of A431 metastases at distant sites was demonstrated by detection of CAT activity in whole-organ lysates. Treatment of animals with VEGF-neutralizing antibodies not only inhibited primary tumor growth but also suppressed metastases, as determined by CAT activity in organ lysates. In experiments to determine the mechanism by which anti-VEGF antibody inhibited metastasis, control animals were sacrificed when their tumors had reached the same size as tumors in VEGF antibody-treated animals. Metastases were uniformly present in these control animals. These findings show that inhibition of VEGF alone is sufficient to prevent tumor growth and dissemination in vivo. The inhibitory effect on metastases appears to be distinct from that on primary tumor growth.
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PMID:Vascular endothelial growth factor promotes tumor dissemination by a mechanism distinct from its effect on primary tumor growth. 863 Oct 34

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