Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Risk factors for post-transplant relapse were analysed retrospectively in 163 patients treated with allogenic bone marrow transplantation for acute myeloid leukaemia (AML), acute lymphoblastic leukaemia (ALL) or lymphoblastic lymphoma in first to fourth remission or during relapse. Multifactorial analysis was performed according to Cox with fixed pretransplant covariates and post-transplant cytomegalovirus (CMV) infection and graft-versus-host (GVHD) as time-dependent covariates. Advanced stage of leukemia at the time of transplantation was an important risk factor for subsequent relapse. Furthermore, the study confirmed a graft-versus-leukaemia (GVL) activity associated with chronic GVHD, including de novo chronic GVHD (intensity factor 0.08, p = 0.004). In a model excluding chronic GVHD, female donor-to-male recipient (a risk factor for GVHD), was associated with decreased post-transplant relapse risk (intensity factor 0.3, p = 0.008), suggesting that an allo-reaction against a minor transplantation antigen (Hy) may mediate antileukaemic activity. A decrease of the relapse risk by a factor 0.18 was observed in recipients with AML as well as ALL when the donor was CMV seropositive (p = 0.0002). This effect was restricted to patients who had laboratory evidence of post-transplant CMV infection. When CMV infection occurred and donor was seropositive the relapse risk was reduced by a factor 0.035. The effect was not mediated through an increased occurrence of grade 2-4 acute or chronic GVHD and could not be explained by a statistical bias due to censoring of patients who died in remission. Rather, donor CMV immunity was associated with GVHD independent GVL activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Graft-versus-leukaemia activity associated with CMV-seropositive donor, post-transplant CMV infection, young donor age and chronic graft-versus-host disease in bone marrow allograft recipients. The Nordic Bone Marrow Transplantation Group. 164 52

Tumor cells frequently express on their surface a new antigenic determinant which renders them immunogenic in the host animal. When immunity to this antigen results in rejection of a syngeneic tumor transplant, it is referred to as a tumor-associated transplantation antigen (TATA). RBL-5 is a Rauscher murine leukemia virus (MuLV)-induced leukemia of C57B1/6 origin that is potently immunogenic and shares a TATA with other tumors induced by the closely related Friend and Moloney-MuLVs (FMR-TATA). We have recently isolated a 175 kilodalton (kd) glycoprotein (gp175) which has all the properties expected of the FMR-TATA (Rogers et al., 1984). When this molecule was separated from a purified total glycoprotein fraction by DEAE chromatography, the remaining glycoproteins still contained a highly immunogenic TATA. Control experiments involving radioimmunoassay and immunoprecipitation with rabbit anti-gp175 indicated that this immunogenicity was not due to residual gp175 or breakdown products of gp175. We therefore conclude that RBL-5 expresses at least two distinct TATAs: gp175 and another glycoprotein distinguished from gp175 by its elution from a diethylaminoethyl-cellulose (DE52) column. These results, from a completely in vivo system, support data with other tumors obtained by in vitro methods and indicate that tumor cells may express several immunogenic molecules.
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PMID:The Rauscher-MuLV-induced leukemia, RBL-5, bears two tumor-associated transplantation antigens expressed on distinct molecules. 241 71

Fusion products of spleen cells of W/FuDp rats immunized with a methylcholanthrene-induced BALB/c sarcoma, CA-2, and mouse myeloma cells were screened in an attempt to identify a monoclonal antibody defining the individually distinct tumor-specific transplantation antigen of CA-2. A hybridoma, MP/69/04, was isolated which produces an IgG2a monoclonal antibody that recognized a tumor-restricted antigen of CA-2. In direct binding assay, MP/69/04 reacted only with 2 of 15 methylcholanthrene induced BALB/c sarcomas tested. Thymus, spleen, lymph nodes, bone marrow, brain, adult lung fibroblasts, newborn muscle fibroblasts and 3T3 cells were negative. Absorption tests revealed, however, expression of the MP/69/04 determinant on 8 of the 12 murine leukemia virus (MuLV) producer BALB/c sarcoma tested. The antigen was not detected on any of the three non-producer sarcomas tested nor on a wide range of normal tissues and cell lines. An N-dualtropic MuLV was isolated from CA-2, and cell lines susceptible to infection by this virus were shown to express the MP/69/04 epitope. By Western blotting, the MP/69/04 epitope was identified as being expressed on the MuLV structural protein with a molecular weight of 12,000, present in CA-2 cells and in the purified CA-2 MuLV. These results indicate the MP/69/04 antigen is not a unique tumor-specific transplantation antigen but is a gag product of a recombinant retrovirus which is expressed on the cell surface of many MuLV + methylcholanthrene-induced BALB/c fibrosarcomas.
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PMID:Cell surface antigens of chemically induced fibrosarcomas: detection by a monoclonal antibody of a tumor-restricted Mr 12,000 protein gag antigen encoded by a dual-tropic murine leukemia virus. 299 69

T-cell clone K4L, the cell surface phenotypes of which were Thy-1+, Lyt-1-, Lyt-2+, and L3T4-, was established from the spleen cells of a murine leukemia L1210-immune mouse. Clone K4L was specific for antigen B on L1210, and this antigen was different from antigen A for which the previously reported T-cell clone K7L was specific. K4L possessed cytotoxicity and tumor growth-inhibitory activity against both L1210 and antigen A loss variant, L1210-K7L-, but not against syngeneic tumor P388 or L5178Y. Previously we showed that antigen A was lost frequently for generation of antigen loss variants. In contrast, antigen B was barely found to be lost. When mice were inoculated with L1210 plus a moderate dose of K4L, the tumor grew after initial suppression but this newly emerging tumor was K4L sensitive and was ultimately rejected. The mice initially given L1210 plus K4L attained a high-grade tumor-specific immunity for rejecting the subsequently challenged high-dose (10(7) cells) L1210. This immunity did not involve any bystander antitumor activity against the third party P388 lymphoma that was injected together with L1210 but accompanied the increase in the L1210-specific cytotoxic T-lymphocyte activity. Evidence was provided that the live L1210, the outgrowth of which was inhibited by K4L, induced an effective immune response of radiation-sensitive host lymphocytes including L3T4+ helper T-cells. Taken together, our results show a novel strategy for inducing high-grade host-dependent antitumor immunity by use of a cytotoxic T-lymphocyte clone specific for a stable tumor-specific transplantation antigen.
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PMID:Induction of high-grade tumor-specific immunity in a host using a cytotoxic T-lymphocyte clone specific for a stable tumor antigen on murine leukemia L1210. 326 89

B700 is a melanoma-specific glycoprotein antigen, with a m.w. of 65,000 and an isoelectric point of 4.5; this antigen has been shown to bear significant sequence homology to a normally occurring protein, serum albumin. The production of B700 is apparently restricted to all the murine melanomas tested, since a variety of other transformed and untransformed cell lines do not contain detectable levels of this antigen. The capacity of B700 to function as a tumor-specific transplantation antigen (TSTA) is demonstrated in this study. This activity has been titrated, and it is shown that mice immunized with B700 are able to significantly inhibit the growth of B16 F10 melanomas after subcutaneous challenge; immunized mice can also inhibit the establishment and growth of experimental metastases in the lungs after i.v. challenge with B16 melanoma cells. The TSTA was found to cross-protect also against challenge with two other murine melanoma lines, JB/RH and K1735, but was specific in that the growth of two nonmelanoma lines (RBL-5 leukemia and MCA-105 sarcoma) was not affected. B700 is also shown in this study to be unrelated to other known murine tumor antigens, or to murine leukemia virus antigens. It is further shown that mice immunized with B700 produced antibodies specific to B700 that were not cross-reactive with albumins from various mammalian sources.
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PMID:Murine melanoma-specific tumor rejection activity elicited by a purified, melanoma-associated antigen. 371 69

We have shown previously that the serologic response of BALB/c mice to immunization with BALB/c sarcoma Meth A cells can be more effectively augmented by pretreatment with cyclophosphamide (Cy) than by the use of adjuvants. The serologic response was directed against a highly restricted cell surface antigen, closely related to or identical with the unique transplantation antigen characteristic for this tumor. In this paper, we report the results of our attempts to obtain additional augmentation by using Cy and adjuvants together. For these studies, the optimal Cy dose, interval between Cy and vaccine administration, and vaccine cell number were determined. Mice were injected with Cy 25 mg/kg i.p., and 3 days later, with viable irradiated (10,000 rad) Meth A cells subcutaneously, under conditions in which only few mice produced antibody. Sera were tested for antibody with reactivity against Meth A by complement dependent cytotoxicity (CDCX), which predominantly detects IgM, and by the protein A (PA) and anti-IgG assays, which detect IgG. Of the various adjuvants tested, only monophosphoryl lipid A (MPLA) and CP20,961 resulted in significantly increased titers of reactivity in both the CDCX and PA assays over that obtained when using Cy alone. Although the mean titers observed with CDCX ranged between 1/160 and 1/320, no titer above 1/40 was observed with the PA assay. The specificity of the CDCX reactivity detected by the assay for the Meth A antigen was ascertained by absorption analysis of selected sera by using a panel of BALB/c spleen and tumor cell lines grown in vitro or in vivo. PA titers were too low to permit absorption analysis, and the titers obtained in the anti-IgG assay were lower still. Attempts to augment the anti-Meth A IgG response or to convert the IgM response to IgG were unsuccessful. The combined approach described here (i.e., vaccination with irradiated syngeneic tumor cells plus MPLA in Cy-pretreated mice) was also shown to be effective in augmenting the serologic response against two additional murine leukemia virus-negative sarcomas that are known to be less immunogenic, CMS4 and CMS5. It appears, therefore, that this combined approach may be applicable to stimulating serologic responses against a variety of tumor cell surface antigens.
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PMID:The serologic response to Meth A sarcoma vaccines after cyclophosphamide treatment is additionally increased by various adjuvants. 400 30

L1210 leukemia was transplanted serially in CDF(1) mice treated with 5-(3,3-dimethyl-1-triazeno)imidazole-4-carboxamide (DIC, NSC 45388). After four different lines (C lines) had been treated for several generations, a marked increase in survival time of untreated mice was observed. In contrast, mice treated with DIC or immunosuppressed with cyclophosphamide succumbed earlier with generalized leukemia. Furthermore, a C line showed unusually high sensitivity to chemotherapeutic treatment with 1,3 bis(2-chloroethyl)-1-nitrosourea. The data suggest that C lines acquired strong antigenicity for CDF(1) and DBA/2 hosts. DIC treatment may have selected highly antigenic variants or induced somatic mutations resulting in the appearance of strong new transplantation antigen(s).
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PMID:Immunological alteration of leukemic cells in vivo after treatment with an antitumor drug. 527 45

The mechanisms of action of, and resistance to, important anticancer agents are briefly described. Their selective toxicity is considerably high, and is chiefly due to the distribution and metabolism in the body. The selective toxicity of some DNA-binding drugs may be attributed to the structural difference of DNA, nucleosome and/or chromatin between neoplastic and normal cells. Some studies of reducing side effects are summarized. In our laboratory, we are studying drug-resistance and metastasis of tumor cells. Since the mechanism of natural resistance of gastric cancer, pulmonary cancer, and other refractory cancers may be related to acquired resistance of leukemia, studies on new agents against drug-resistant tumor cells are important. In our laboratory, we have selected cell sublines of murine T-lymphoblastoma L5178Y for resistance to adriamycin (ADM), aclarubicin (ACR) or bleomycin (BLM), and have observed that the resistance is attributed to decreased influx and increased efflux of the antibiotic, resulting in lowered retention of the drug in the cells. Each resistant subline shows a characteristic cross-resistant pattern, suggesting that membrane alteration involved differs each other. We have also found that glycoprotein-synthesizing activity and alkaline phosphodiesterase activity of plasma membrane are higher in the three resistant sublines than in the parental cell line. We obtained a number of hybridomas producing antibodies to plasma membrane of an ACR-resistant subline of L5178Y cells. Among the syngeneic monoclonal antibodies, one was found by agglutination tests to react with the ACR-resistant cell line, but not significantly with the parental and ADM-, BLM-and MCR-resistant cell lines. Fluorographs of [14C] leucine-labeled ACR-resistant cells demonstrates two protein bands of 230 K and 20 K daltons, which are precipitated by the monoclonal antibody. The former seems to be specific to the ACR-resistant cells. Based on the results so far obtained, the 230 K protein may be related to the drug resistance and may be TATA (tumor-associated transplantation antigen). The results suggest that isolation of drug-resistant neoplastic cells is a novel method of finding TATA.
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PMID:[Mechanism of action and resistance of antineoplastic agents]. 619 71

A 175,000 dalton glycoprotein bearing a tumor-associated transplantation antigen (TATA) has been isolated from a Rauscher-MuLV-induced leukemia (RBL-5). The glycoprotein has the properties expected for a Friend, Moloney, or Rauscher-MuLV-induced TATA: 1) It is synthesized by RBL-5 cells and is expressed on the cell surface. 2) When inoculated into mice, it provides complete protection against challenge with RBL-5 cells at doses of 1 microgram or less. 3) The same protein, isolated from a Moloney-MuLV-induced leukemia, also protects mice against challenge with RBL-5. A similar glycoprotein is expressed on other tumor cells and on normal cells that do not express a TATA cross-reactive with RBL-5. Therefore, the immunogenicity of this molecule cannot be principally accounted for by either its unique or elevated expression on RBL-5 cells. A model is presented that accounts for these properties of the RBL-5 TATA. In addition, two other features of the RBL-5 TATA are discussed; an apparent abrogation of immunity seen only with certain doses of antigen, and a loss of the inherent immunogenicity of gp175 during purification.
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PMID:Purification of a glycoprotein bearing a tumor transplantation antigen specific for Friend, Moloney, and Rauscher MuLV-induced tumors. 620 77

In contrast to broadly expressed classical class I antigens of the major histocompatibility complex, structurally closely related TL antigens are expressed in a highly restricted fashion. Unlike classical class I antigens, TL antigens are not known to be targets of cytotoxic T cells or to mediate graft rejection. Whereas classical class I antigens function as antigen-presenting molecules to T cell receptors (TCR), the role of TL is yet to be defined. To elucidate the function of TL, we have derived transgenic mice expressing TL in most tissues including skin by introducing a TL gene, T3b of C57BL/6 mouse origin, driven by the H-2Kb promoter. By grafting the skin of transgenic mice, we demonstrate that TL can serve as a transplantation antigen and mediate a TCR-alpha/beta+ CD8+ cytotoxic T cell response. This T cell recognition of TL does not require antigen presentation by H-2 molecules. Furthermore, we show that C57BL/6 F1 mice develop CD8+ T cells that are cytotoxic for C57BL/6 TL+ leukemia cells, providing further support for the concept that aberrantly expressed nonmutated proteins such as TL can be recognized as tumor antigens.
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PMID:TL antigen as a transplantation antigen recognized by TL-restricted cytotoxic T cells. 811 75


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