UMLS:C0027651 - FACTA Search

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

The antitumor effects of two anti-CD22 ricin A chain-containing immunotoxin (IT) constructs were compared in mice with severe combined immunodeficiency disease with human Daudi cell tumors (SCID-Daudi mice). SCID-Daudi mice develop disseminated lymphoma that clinically resembles African Burkitt's lymphoma, i.e., extranodal disease including infiltration of the vertebral column and spinal canal. In the absence of treatment, the mean survival time of SCID-Daudi mice was 45.9 +/- 4.3 days. The mice was given injections of a dose of IT equal to 40% of the 50% lethal dose. The ITs consisted of either IgG or Fab' fragments of mouse anti-CD22 antibody coupled to deglycosylated ricin A chain (dgA). Both ITs were potent and specific and inhibited protein synthesis in Daudi cells in vitro by 50% at concentrations of 1.2 x 10(-12) (IgG-dgA) and 1.3 x 10(-11) M (Fab'-dgA). When administered to mice beginning 1 day after inoculation with tumor cells, both ITs extended the mean survival time, to 87.2 +/- 18.9 days (IgG-dgA) or 57.9 +/- 3.8 days (Fab'-dgA). The latter represented the killing of 2 logs of Daudi cells, and the former 4 logs. IgG antibody alone killed 1 log of tumor cells. The IgG-dgA had an antitumor effect even when administered 20-23 days after tumor inoculation. Gross and histological examinations of IT-treated tumor-bearing mice showed a marked decrease in the number and size of neoplastic foci in both lymphoid organs and extranodal sites.
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PMID:Antitumor activity of Fab' and IgG-anti-CD22 immunotoxins in disseminated human B lymphoma grown in mice with severe combined immunodeficiency disease: effect on tumor cells in extranodal sites. 193 55

Adoptive transfer of specifically sensitized lymphoid cells constitutes a potential tool for specific cancer immunotherapy, however, the requirement of syngeneic or autologous specifically reactive cells has limited its use in the treatment of human cancer. In several mouse tumor models, large amounts of lymphokine activated killer (LAK) cells associated with high doses of interleukin 2 (IL-2) are able to mediate the regression of established pulmonary and hepatic metastases. Since LAK cells are more easily generated than specifically sensitized lymphocytes and show broad tumor specificity, this approach has been applied in humans to treat cancer, but the acute toxicity associated with the high doses of IL-2 administered represents an important drawback to its clinical use. The observation that lymphocytes can internalize ricin, a toxic plant protein, and then release it in an active form, capable of destroying other cells, led us to investigate the possibility of using antigen-specific cytotoxic T lymphocytes (CTL) or LAK cells as carriers of toxic substances to the tumor site. In our experimental models we observed that tumor-specific CTL or LAK cells can be used to deliver ricin into the tumor mass and cause temporary tumor growth inhibition.
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PMID:Adoptive immunotherapy of experimental tumors using cytotoxic lymphocytes to carry and deliver toxins. 195 33

We have synthesized 90Y-labeled immunotoxin (IT) containing ricin A chain and C110 anti-carcinoembryonic antigen monoclonal antibody (MAb) to produce a therapeutic immunoconjugate for human colon cancer. The C110 IT was labeled with 90Y via a benzylisothiocyanate derivative of diethylenetriaminepentaacetic acid. The efficiency of 90Y labeling was consistently 90 to 98%, with a specific activity of about 1 microCi/microgram. In in vitro stability studies, more than 80% of 90Y remained bound to the C110 IT for up to 5 days after incubation. The percentage of binding of 90Y-labeled C110 IT to carcinoembryonic antigen-coated microbeads was 86%, indicating good retention of the initial immunoreactivity of the C110 MAb. In in vitro protein synthesis inhibition assays, 90Y-labeled C110 IT was approximately 3.7-fold more toxic to the LS174T human colon carcinoma cell line than unmodified C110 IT and 1380-fold more toxic than 90Y-labeled C110 MAb. Biodistribution studies of 90Y-labeled C110 IT in LS174T tumor-bearing mice showed that, at 24 h following i.p. injection, high accumulation of radioactivity was seen in the i.p. tumor and liver and, thereafter, high accumulation in these tissues remained almost unchanged until up to 168 h, with percentage of injected dose/g ranging from 15 to 18% in the tumor and 10 to 15% in the liver. The radioactivity in the spleen and bone gradually increased with time and reached their highest levels (approximately 8% of injected dose/g) at 168 h. Estimation of absorbed radiation doses to the tissues showed that i.p. tumor would have received an approximately 1.5 to 7 times higher radiation dose than normal organs. In in vivo therapeutic trials, 90Y-labeled C110 IT provided survival prolongation of LS174T tumor-bearing mice superior to that with either unmodified C110 IT or 90Y-labeled C110 MAb (4 less than 0.01; Mann-Whitney U test). These results indicate that 90Y-labeled C110 anti-carcinoembryonic antigen IT may be a potent therapeutic immunoconjugate for human colon cancer and that it may have direct relevance for i.p. treatment of peritoneal carcinomatosis from colon cancers.
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PMID:Preclinical assessments of 90Y-labeled C110 anti-carcinoembryonic antigen immunotoxin: a therapeutic immunoconjugate for human colon cancer. 198 87

Immunotoxins (ITs) are chimeric molecules constructed by covalently conjugating monoclonal antibodies (MoAbs) to plant or bacterial toxins (e.g. ricin or pseudomonas exotoxin). The antibody moiety allows specific targeting of ITs to tumor-associated antigens, while the toxin moiety is responsible for cell killing by irreversible inactivation of protein synthesis. Since ITs must reach the cytosol to kill cells, the rates of endocytosis, the pathways of intracellular routing, and the rates of translocation to the cytoplasm are important determinants of the efficacy of an IT. Promising in vitro and in vivo IT results have been reported by many groups, and phase I clinical trials in cancer patients are currently underway.
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PMID:Immunotoxins. 200 15

Ricin A chain immunotoxin constructed with monoclonal antibody 791T/36, which recognizes a tumor associated glycoprotein Mr 72,000 antigen present on sarcomas and colon and ovarian cancer cells, is cytotoxic for cell lines from tumors expressing this antigen. Incubation of sarcoma 791T cells with immunotoxin for only 5 min is sufficient to produce greater than 95% inhibition of tumor cell growth. Papain treatment of these cells to remove immunotoxin from the cell surface indicated that the cell surface acts as a reservoir for continued internalization of immunotoxin over several hours, but even so, 50% inhibition of cell survival was produced over a 2- to 3-h period. Analysis of the rate of endocytosis demonstrated that 30-50% of cell bound immunotoxin was internalized over a 180-min period. This was primarily dictated by the antibody moiety, regardless of the degree of conjugation to ricin A chain. This rate is much slower than that of other cell surface ligands such as transferrin. Cell cytosol acidification experiments were performed to determine whether this immunotoxin was internalized by clathrin coated pits, which is relatively rapid, or by smooth pits, which is slower, and the results indicated the latter mechanism is almost exclusively used. Intracellular trafficking of antibody 791T/36, conjugated to human serum albumin-tetramethylrhodamine was investigated by flow cytometry. The movement of the conjugate into the lysosomal compartment was delayed so that degradation products were only detected after a lag phase of 30-60 min. The lack of potentiator dependence of 791T/36 immunotoxin is in keeping with these findings.
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PMID:Endocytosis of immunotoxin-791T/36-RTA by tumor cells in relation to its cytotoxic action. 200 18

MOv18, a non-internalizing monoclonal antibody (MAb) with restricted tumor specificity, was conjugated to ricin toxin (RT). According to their ability to bind to galactose residues of Sepharose 6B, the immunoconjugates were fractionated into Bound and Unbound MOv18-RT. The two conjugates could be distinguished by SDS-PAGE, in vivo toxicity and agglutination capability. When the binding activity of both fractions was compared by solid-phase RIA to that of native MAb, it proved to be similar on the relevant target cells but significantly increased on the non relevant cells. On the latter, galactose totally cancelled the binding of the Unbound immunoconjugate, whereas it could only partially reverse that of the Bound MOv18-RT. By in vitro cytotoxic activity, either in the presence or absence of galactose, only a slight selectivity for relevant versus non-relevant target cells was observed for both conjugates. It seems that in the presence of a MAb which is incapable of internalization, the conjugate cytotoxicity could only be attributed to RT, with a loss of the MAb's specificity.
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PMID:Preparation and biological characterization of conjugates consisting of ricin and a tumor-specific non-internalizing MAb. 201 80

The aim of this study was to determine the suitability of a ribosome-inactivating protein (RIP) from barley endosperm for use as an immunotoxin. This barley RIP is identical with the 30-kDa protein first reported by Coleman and Roberts [(1982) Biochim. Biophys. Acta 696, 239] and sequenced by Asano and co-workers [(1986) Carlsberg Res. Commun. 51, 75]. Use of the terms barley toxin I, II, and III is proposed to describe the three isoforms resolved by cation-exchange chromatography. An improved procedure for isolating the protein involving the steps of aqueous extraction, ammonium sulfate precipitation, and cation-exchange HPLC is described. Barley toxin II retained activity after exposure to ca. 40% acetonitrile and 0.1% trifluoroacetic acid or lyophilization. In a comparative study using the rabbit reticulocyte lysate assay, the protein was about 68% and 30% as potent as gelonin and ricin A-chain (RTA), respectively. Introduction of SH groups with 2-iminothiolane resulted in a substantial loss of activity as the number of thiol groups approached four. Therefore, it was necessary to limit thiolation to an average of one to two SH groups per toxin molecule. Anti-transferrin receptor-based immunotoxins constructed with RTA, gelonin, and barley toxin II exhibited comparable cytotoxicity against a human colon tumor cell line. We conclude that the availability of raw material, ease of purification, and stability of barley toxin II to lyophilization and denaturing conditions render it a suitable protein for the construction of immunotoxins.
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PMID:Immunotoxin construction with a ribosome-inactivating protein from barley. 209 10

Three anti-breast carcinoma monoclonal antibodies 317G5, 260F9 and 741F8 linked to ricin A chain (rRTA) were selected for the present investigation. Attempts were made to understand the relative efficiency of these immunotoxins in relation to: a) binding, b) internalization, and c) clonogenic suppression of breast cancer cells in vitro. The results indicated that 317G5-rRTA combined with 260F9-rRTA had synergistic antitumor activity against SKBr3 breast carcinoma cell line. Individually, 10 micrograms/ml 260F9-rRTA or 317 G5-rRTA alone could only eliminate 2-3 logs of clonogenic SKBr3 cells. When used in combination, 260F9-rRTA and 317G5-rRTA, 1 microgram/ml each, could kill 4 logs of clonogenic tumor cells. The mechanism of the synergistic action is discussed.
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PMID:[Synergistic antitumor activity of human breast cancer immunotoxins]. 227 57

In the present study, immunotoxins (ITs) containing ricin A chain (RA) and anti-human T leukemia monoclonal antibodies SN1 and SN2 were used with or without alpha-interferon (IFN) and/or daunorubicin (DNR) for in vivo tumor suppression. SN1 and SN2 are directed toward two unique human T-leukemia-associated cell surface antigens, TALLA and GP37, respectively. As the tumor model, we used nude mice bearing ascitic tumors of Ichikawa, a human T acute lymphoblastic leukemia cell line. In initial studies, we investigated the effect of the IT injection schedule on the efficacy of ITs in the in vivo suppression of the ascitic tumors. Four doses of 20 micrograms each of SN1-RA and SN2-RA completely suppress the tumor growth in 100% of the treated mice when the IT treatment is initiated either 1 or 2 days after tumor inoculation of 1.6 x 10(7) Ichikawa cells into the mice. Subsequently, we investigated the potentiating effects of IFN and DNR on the in vivo antitumor activity of ITs. To this end, we chose to initiate the treatment 4 days after the tumor inoculation when IT treatment alone is only partially effective. ITs (10 micrograms each of SN1-RA and SN2-RA) plus IFN (2 x 10(5) IU) or ITs plus IFN plus DNR (5 micrograms) completely suppress tumor growth in 100% of the treated mice while similar treatment with any one of the three agents is only partially effective. Similar treatment with ITs plus DNR or IFN plus DNR results in complete suppression of tumor growth in 80% of the treated mice. These results were reproducible in a repeated experiment. To gain information about the mechanisms involving the IFN potentiation of IT activity, we carried out several experiments. The cell surface expression of TALLA and GP37 was slightly augmented by the in vitro incubation of Ichikawa cells with IFN as measured by fluorescence-activated cell sorter analysis. The degree of the increase in either TALLA or GP37 was significantly smaller than that of HLA class I antigens in the same experiment. In in vitro experiments, IFN did not show any significant cytotoxic activity against Ichikawa cells or augment the cytotoxic activity of ITs against Ichikawa cells. On the other hand, injections of IFN into nude mice augmented activity of macrophages and NK cells; however, Ichikawa leukemia cells were rather resistant to the NK cell lysis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Synergistic potentiation of in vivo antitumor activity of anti-human T-leukemia immunotoxins by recombinant alpha-interferon and daunorubicin. 229 57

Intracavitary administration of immunotoxins may play a role in the control of malignant effusions. Selection of immunotoxins for this form of therapy is based on their prior evaluation in preclinical studies. Monoclonal antibodies (mAb) 454A12 (antitransferrin receptor), and 260F9 are directed against antigens which are present on tumor cells in pleural and peritoneal effusions of patients with adenocarcinoma of the breast and ovary. In the present study, immunotoxins derived by conjugating these mAb to recombinant ricin A (rRA) were shown to be cytotoxic to human ovarian adenocarcinoma HEY cells in vitro and in vivo. In the in vitro assay 454A12-rRA and 260F9-rRA were 1000-fold and 10-fold, respectively, more cytotoxic than free rRa against HEY cells, and both immunotoxins were potentiated approximately 1000-fold by monensin. For in vivo studies HEY cells were injected i.p. into nude mice at a challenge dose (3 x 10(5) cells) which produced carcinomatosis with ascites, leading to death 30 days following injection. Administration of 454A12-rRA i.p. following the challenge dose resulted in a complete cure, whereas administration of 260 F9-rRA with monensin significantly prolonged survival. The greater cytotoxicity of 454A12-rRA than 260F9-rRA against HEY cells could be accounted for by the greater number of binding sites and higher internalization rate for 454A12-rRA and mAb 454A12 than 260F9-rRA and mAb 260F9, respectively. These results suggest a potential role for 454A12-rRA and 260F9-rRA plus monensin in the intracavitary therapy of malignant effusions associated with carcinoma of breast and ovary. In the case of 260F9-rRA, this represents the first preliminary indication of the suitability of this immunotoxin for intracavitary therapy of malignancies.
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PMID:Inhibition of human tumor growth by intraperitoneal immunotoxins in nude mice. 229 69

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