Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

We have investigated the phenotype of seven human glioma cell lines established in vitro from primary tumour explants. Indirect immunofluorescence and flow cytofluorimetry revealed a heterogeneous distribution of surface GE 2 and CG 12 Tumour Associated Antigens (TAA). In one group of cell lines TAA were detected both at the cell surface and in the cytosol, whereas in a second group of glioma cell lines TAA were found only in the cytosol. We have also investigated the sensitivity of glioma-derived cell lines to antibody-toxin and ligand-toxin conjugates (Immunotoxins). Monoclonal antibodies anti GE 2 antigen linked to ricin toxin A subunit (RTA) showed poor cytotoxicity, which increased about 50 fold when the whole toxin was linked to anti GE 2 monoclonals. Treatment with human recombinant interferon gamma (IFN-gamma) greatly augmented the percentage of HLA-DR+ cells and the amount of HLA-DR antigens per cell. IFN-gamma treatment resulted in a net increase of sensitivity to anti HLA-DR Immunotoxins (IT). Human diferric transferrin linked to RTA exhibited a potent cytotoxic effect against human glioma-derived cells when used in the presence of the lysosomotropic carboxylic ionophore monensin.
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PMID:Human glioma cell lines: tumour associated antigens distribution and sensitivity to antibody-toxin or ligand-toxin conjugates. A preliminary report. 326 95

Pokeweed antiviral protein (PAP) from the summer leaves of Phytolacca americana was purified and conjugated via N-succinimidyl-3-(2-pyridyldithio)propionate to 9.2.27 anti-melanoma antibody to a glycoprotein-proteoglycan complex. The conjugate was highly potent (50% inhibition dose of 5 X 10(-11)-10(-13) M on antigen-positive melanoma) and highly selective (5 X 10(-8) on antigen-negative melanoma). Human melanoma cells were selected for resistance to in vitro killing of the PAP conjugate by cycling through a killing and recovery sequence. Resultant cultures were shown to be more than 2 logs less sensitive to the killing of the PAP conjugate than untreated cultures. Isolation of clones by limiting dilution and reanalysis indicated that the resistant polyclonal culture contained clones with a range of sensitivities. Resistant cultures were also resistant to other A-chain conjugates of 9.2.27, but not to intact toxins like ricin and abrin. Resistant cultures showed no change in antigen expression after selection with the PAP conjugate of 9.2.27. Thus, just as with many other chemotherapeutic agents, tumor cells can become resistant to agents inhibiting protein synthesis even when targeted with monoclonal antibody. The mechanisms of this resistance and modalities to minimize resistance are currently being explored.
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PMID:Immunotoxins to a human melanoma-associated antigen: resistance to pokeweed antiviral protein conjugates in vitro. 347 51

In vivo immunochemotherapy of human solid tumors was studied in a nude mouse model. Large tumors (3 to 6 cm3) were induced by s.c. injection of the acute lymphoblastic leukemia T-cell line CEM. Transient tumor inhibition could be achieved by intratumoral injection of an intact-ricin immunotoxin that specifically recognizes a determinant CD5 (T,p67) expressed on the cell surface. Injection of the in vitro active cyclophosphamide congener mafosfamid had little effect on the progression of tumor growth. A combination regimen of immunotoxin and mafosfamid induced the most dramatic antitumor effect; a 72 to 100% reduction in tumor volume was observed within 3 to 4 days posttreatment. However, tumors relapsed within 5 to 13 days. Persistent, tumor regression was observed only when protocols using successive injections of combined immunotoxin/mafosfamid were used. All seven mice undergoing this treatment had a precipitous decrease in tumor size, and 86% survived greater than 30 days posttreatment. No residual tumor was detectable on Day 30 in five of seven mice. Regression was partly attributed to the selective activity of immunotoxin, since successive injections of an irrelevant control immunotoxin coupled to ricin in combination with mafosfamid did not reduce tumor size. Thus, we have demonstrated that a combination of anticancer chemotherapy and immunotoxin therapy yielded a greater antitumor effect than either therapy alone.
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PMID:Combined immunochemotherapy of human solid tumors in nude mice. 349 78

The in vitro sensitivity of human melanoma cell lines to conjugates of whole abrin or ricin linked through disulfide bonds to the monoclonal antimelanoma antibody 9.2.27 was studied. After passage of the conjugates through a Sepharose 4B column to remove molecular species with exposed binding sites on their B-chains, toxicity of the conjugates to different melanoma cell lines and nonmelanoma tumor lines was assessed by measuring their ability to inhibit cellular protein synthesis. The abrin conjugate was far more toxic to the target cells than the corresponding ricin conjugate. The 8 melanoma cell lines studied differed widely in their sensitivities to the abrin conjugate. The differences were associated with concomitant large differences in the sensitivities of the cells to the native toxins, and the significance of the level of the antigen expression became apparent only when the sensitivities of the different cell lines were normalized with respect to their sensitivity to native abrin. The observed relationship could not be accounted for by unspecific binding via the B-chain binding site of the immunotoxin. The differential sensitivity of the melanoma cell lines to the immunotoxin seems to be related to inherent differences between the cells in their ability to internalize and to process immunotoxins and toxins. The findings may have considerable practical implications.
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PMID:Human melanoma cell lines showing striking inherent differences in sensitivity to immunotoxins containing holotoxins. 349 24

The carbohydrate present on ricin A chain causes ricin A chain immunotoxins to be cleared rapidly in animals by the reticuloendothelial system. In an effort to overcome this problem we destroyed the carbohydrate on ricin A chain by treating it with a mixture of sodium metaperiodate and sodium cyanoborohydride and then linked the "deglycosylated" A chain to monoclonal anti-Thy 1.1 antibody. The deglycosylation procedure did not affect the ability of the A chain component of the immunotoxin to inhibit protein synthesis in a cell-free system or the capacity of the immunotoxin to inhibit protein synthesis in Thy-1.1 positive lymphoma cells in vitro. Immunotoxins prepared with deglycosylated A chain were cleared from the bloodstream of mice more slowly than native ricin A chain immunotoxins. The difference in the blood clearance rates of the two immunotoxins could be accounted for by a decreased entrapment of the deglycosylated ricin A chain immunotoxin by the liver. Both immunotoxins broke down in vivo with the appearance of free antibody in the bloodstream. The site of cleavage of the immunotoxin was possibly the liver because immunotoxins taken up by it rapidly became unreactive with antiricin but retained reactivity with anti-mouse immunoglobulin G suggesting that dissociation of the A chain from the antibody had occurred. The immunotoxins taken up by the liver were metabolized further and the acid insoluble radioactive metabolites gradually accumulated in the stomach, thyroid, and salivary gland. The deglycosylated ricin A chain immunotoxin should be a more effective antitumor agent in vivo because it is cleared from the blood more slowly and so has greater opportunity to localize within the tumor target.
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PMID:Effect of chemical deglycosylation of ricin A chain on the in vivo fate and cytotoxic activity of an immunotoxin composed of ricin A chain and anti-Thy 1.1 antibody. 349 71

An immunotoxin comprising a tumour-specific monoclonal antibody (11/160) coupled to ricin A chain, although inactive in in vitro cytotoxicity assays against HSNtc sarcoma target cells, was found to be capable of significant tumouricidal activity in syngeneic rats if potentiated by ricin B chain. The 11/160-ricin A, when bound to tumour cells prior to their inoculation, led to a slight inhibition of tumour growth s.c. compared with untreated sarcoma cells or those coated with antibody alone. However, all tumours in these groups developed progressively (69/69), whereas in those rats receiving 15 micrograms or 150 micrograms ricin B chain i.v. 5 min after tumour cell inoculation, the 'take rate' was reduced to 75% and 30% respectively, and significantly longer latent periods were evident for those tumours which did develop. Ricin B chain similarly inhibited, in a dose-dependent manner, the lung colonisation potential of 11/160-ricin A coated HSNtc cells. No effects were obtained if the B chain treatment followed inoculation of untreated or antibody-coated cells, suggesting that systemically administered B chain is capable of gaining access to and activating antibody-ricin A chain conjugates bound to the surface of syngeneic sarcoma cells in lung or subcutaneous sites. Tumour inhibition was obtained in some instances with intervals of up to 24 h between inoculation of conjugate-coated tumour cells and B chain. Experiments are in progress to determine if such potentiation may be feasible in a therapeutic rather than a prophylactic setting using this syngeneic solid tumour system.
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PMID:An ineffective monoclonal antibody-ricin A chain conjugate is converted to a tumouricidal agent in vivo by subsequent systemic administration of ricin B chain. 349 71

In this study, immunotoxins containing monoclonal anti-human T-cell leukemia antibodies are shown to be capable of completely suppressing the tumor growth of human T-cell leukemia cells in vivo without any overt undesirable toxicity. These immunotoxins were prepared by conjugating ricin A chain (RA) with our monoclonal antibodies, SN1 and SN2, directed specifically to the human T-cell leukemia cell surface antigens TALLA and GP37, respectively. We have shown that these monoclonal antibodies are highly specific for human T-cell leukemia cells and do not react with various normal cells including normal T and B cells, thymocytes, and bone marrow cells. Ascitic and solid human T-cell leukemia cell tumors were generated in nude mice. The ascitic tumor was generated by transplanting Ichikawa cells (a human T-cell leukemia cell line) i.p. into nude mice, whereas the solid tumor was generated by transplanting s.c. MOLT-4 cells (a human T-cell leukemia cell line) and x-irradiated human fibrosarcoma cells into x-irradiated nude mice. To investigate the efficacy of specific immunotoxins in suppressing the in vivo growth of the ascitic tumor, we divided 40 nude mice that were injected with Ichikawa cells into four groups. Each group of 10 mice was injected with one of the following mixtures: 40 micrograms of purified control mouse IgG [IgG1(kappa)] (group 1), 40 micrograms of control RA conjugate (group 2), 20 micrograms of purified SN1 antibody [IgG1(kappa)] and 20 micrograms of purified SN2 antibody [IgG1(kappa)] (group 3), or 20 micrograms of SN1-RA and 20 micrograms of SN2-RA (group 4). Mice in groups 1 and 2 formed large ascitic tumors, and died 5.8-7.0 weeks after the transplantation. Group 3 mice also formed large ascitic tumors and died 6.4-7.8 weeks after the transplantation. However, none of the mice in group 4 that were treated with SN1-RA and SN2-RA showed any signs of a tumor or undesirable toxic effects for the 20 weeks that they were followed after the transplantation; these mice were indistinguishable from healthy control nude mice that were not injected with Ichikawa cells. Treatment with SN1-RA plus SN2-RA completely suppressed solid tumor growth in 4 of 10 nude mice carrying solid tumors and partially suppressed the tumor growth in the remaining 6 nude mice. These results strongly suggest that SN1-RA and SN2-RA may be useful for clinical treatment.
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PMID:Complete suppression of in vivo growth of human leukemia cells by specific immunotoxins: nude mouse models. 349 97

Gelonin, a ribosome-inactivating protein from the seeds of Gelonium multiflorum, has been conjugated to antibodies. Previous reports have indicated variable potency of such immunotoxins. The lack of toxicity of gelonin, however, makes it attractive for immunoconjugate production. The ribosome-inactivating protein was covalently linked (using N-succinimidyl-3-(2-pyridyldithio)propionate) to monoclonal antibody, 9.2.27, directed to a human melanoma-associated glycoprotein/proteoglycan. The immunoconjugate showed high selectivity with dose-dependent cytotoxic activity to cultured human melanoma cells (50% inhibitory dose; 1-3 X 10(-11) M versus antigen-positive cells; 1-3 X 10(-7) M versus antigen-negative cells). Specificity and immunoreactivity of the conjugate were similar to those of unconjugated antibody. Biodistribution studies with iodine trace-labeled conjugate in nude mice indicated that tumor localization of the gelonin conjugate was decreased compared to unconjugated antibody. However, a significant therapeutic effect of the conjugate was found with multiple but not single dose i.v. treatment in nude mice bearing established palpable melanoma. These in vivo experiments showed that gelonin conjugates are not toxic up to 2 mg total dose/mouse and significantly retarded the growth of established s.c. tumor. Comparison of gelonin conjugates in vitro and in vivo with other A-chain conjugates of 9.2.27 (abrin and ricin) indicated that gelonin had similar potency, better selectivity, better tumor localization, and more significant therapeutic effects.
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PMID:Immunotoxins to a human melanoma-associated antigen: comparison of gelonin with ricin and other A chain conjugates. 349 29

The therapeutic efficacy of whole ricin, or recombinant ricin A chain, coupled to a monoclonal antibody that reacts with the idiotype of the surface IgM expressed on guinea pig L2C lymphoblasts, was assessed. In vitro studies were done to characterize the immunotoxins (IT) and to demonstrate their specificity before use in vivo. The concentration of whole ricin IT (M6-Ricin) that inhibited protein synthesis by 50% (IC50) in L2C cells was 1.4 X 10(-9) M, in a 5-hr assay, in the presence of lactose to block non-antibody-directed toxicity. M6-Ricin did not inhibit protein synthesis in two control guinea pig cell lines that did not express the idiotype, nor did a whole ricin IT prepared with an isotype-matched monoclonal antibody of irrelevant specificity inhibit protein synthesis in L2C cells. Two recombinant ricin A chain IT, which differed from one another by a factor of 2 to 3 in the number of A chains conjugated per antibody molecule, were less effective in vitro than M6-Ricin (IC50 of greater than 5 X 10(-8) M). For in vivo experiments, the IT were given by the i.p. route 24 hr after the i.p. inoculation of 1 X 10(5) L2C cells. The highest doses of M6-Ricin and M6-Ricin A chain IT tested, 30 micrograms/kg and 3000 micrograms/kg, respectively, were within fourfold to fivefold of their maximum tolerated doses; no deaths or ill effects due to ricin toxicity were noted. These doses increased the median survival time of L2C-bearing guinea pigs to 31 to 34 days, compared with 15 days for untreated animals. This magnitude of increase in survival indicates that 99.999% (5 logs) of injected tumor cells were eliminated, thus accounting for the 12% long-term survival rate obtained. Median survival times for guinea pigs treated with 30 micrograms/kg of the A chain IT were 18 and 21 days for the two conjugates tested, and the median survival for guinea pigs treated with 3000 micrograms/kg of unconjugated antibody was 18 days. Our data demonstrate that recombinant A chain IT are active in vivo and that the B chain of ricin can potentiate IT activity in vivo. Although the potency differs by 100-fold, the therapeutic index of the intact ricin IT is similar to that of the ricin A chain IT.
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PMID:Whole ricin and recombinant ricin A chain idiotype-specific immunotoxins for therapy of the guinea pig L2C B cell leukemia. 349 93

We prepared an immunoconjugate consisting of a monoclonal antibody recognizing the Thy-1 antigen and the ribosome-inactivating protein gelonin linked by a disulfide bond. This immunotoxin preparation was judged to contain less than 5% free antibody or gelonin. It was highly toxic in vitro in an antigen-specific fashion to the Thy-1 expressing RADA leukemia of A/J mice. The IC50 of this preparation on RADA in vitro was 10(-12) M, while the IC50 on the Thy-1 negative S1509a fibrosarcoma of A/J mice was 10(-7) M. The toxicity of this immunoconjugate was also measured in a direct proliferation and it was found that a 4-h exposure and a 24-h exposure of RADA cells to a 1 nM concentration of immunotoxin killed 90% and 99.9% of cells, respectively. Furthermore, efficacy in vitro was not due to the intrinsic susceptibility of RADA cells to tis type of immunotoxin, as one prepared with gelonin and an antibody recognizing the TLa determinant on this leukemia had no efficacy in vitro. Clearance of the anti-Thy-1-gelonin immunoconjugate from the circulation of A/J mice after i.v. injection was rapid, especially during the first 8 h after injection, possibly because of binding to Thy-1 expressing tissue. Delivery of immunoconjugate to ascitic tumor in vivo was substantially better if the immunoconjugate was given by i.p. injection, rather than by the i.v. route. When given either i.v. or i.p. at the time of i.p. tumor inoculation in vivo, the anti-Thy-1-gelonin immunotoxin showed potency in an antigen-specific fashion; while this immunoconjugate prolonged survival and frequently cured RADA-inoculated mice, neither anti-Thy-1 antibody, gelonin, a combination of the two, nor immunotoxin of irrelevant specificity had any significant effect on survival. Anti-Thy-1-gelonin also had no effect on survival of A/J mice inoculated i.p. with S1509a. Furthermore, it was determined that a single i.p. dose of anti-Thy-1-gelonin killed 90% to 99% cells in vivo, and that the immunoconjugate was about as effective in this model as either adriamycin or cytoxan.
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PMID:The antileukemic efficacy of an immunotoxin composed of a monoclonal anti-Thy-1 antibody disulfide linked to the ribosome-inactivating protein gelonin. 349 57


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