UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The immunohematopoietic potential of syngeneic fetal liver cells (SFLC) was examined and compared with syngeneic bone marrow cells (SBMC). SFLC generated about 3 times less 12th-day spleen colonies (CFU-S) than adult SBMC did. To test the SFLC ability for reconstitution of the immune system, mice were lethally total body irradiated (TBI) and transplanted i.v. with 3 x 10(7) SFLC or 1 x 10(7) SBMC. Thus, injected hematopoietic cells contained the same number of CFU-S. On days 28, 35, 42, and 49 after transplantation the mice were injected i.p. with 10(6) immunogenic L1210-Maf cells (L1210 leukemia cells treated in vitro with mafosfamide for inhibition of their growth in vivo) to test the ability for generation of immune response against L1210 leukemia. On day 56 the animals were challenged with 10(3) L1210 leukemia cells. Strong resistance against the leukemia was induced in TBI + SFLC and TBI + SBMC mice, suggesting that the SFLC similarly as SBMC are able to reconstitute immune system of the TBI host.
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PMID:Induction of immune resistance against L1210 lymphatic leukemia in mice after lethal irradiation and reconstruction with fetal liver cells. 179 37

BALB/cxDBA/2Wf F1 (CD2F1) mice were lethally irradiated and reconstituted with syngeneic bone marrow cells untreated or treated with 75 micrograms/ml of mafosfamide. One day after bone marrow transplantation some groups of mice were injected with syngeneic splenocytes, peripheral blood leukocytes, or thymocytes. Seven days after marrow grafting the anti-L1210 leukemia immunization of mice, consisting of four i.p. injections of 10(6) L1210-Maf cells (L1210 cells treated in vitro with mafosfamide for inhibition of their growth in vivo), was started. Strong resistance against leukemia could be obtained only in mice receiving splenocytes or peripheral blood leukocytes, not in mice injected with thymocytes or in those not receiving any cells. In vitro elimination of various subpopulations from among the splenocytes before their injection into the mice made it possible to deduce which are necessary for early induction of antitumor resistance after bone marrow transplantation in mice. These cells are: Thy 1.2-, Ig-, AsGM 1-, Mac 1+, 1-Ad+/-, are adherent and nonsusceptible to carrageenan toxicity.
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PMID:Early induction of immune resistance against leukemia in mice after lethal irradiation followed by syngeneic bone marrow transplantation and injection of syngeneic leukocytes. 201 40

Lymphatic leukemia L1210-bearing semisyngeneic Balb/c x DBA/2Wf F1 (CD2F1) mice were subjected to chemoradiotherapy (2 x 100 mg/kg of cyclophosphamide i.p. and 1000 cGy of total body irradiation) and reconstitution with 10(7) syngeneic bone marrow cells i.v. The bone marrow obtained from leukemic mice was previously ex vivo purged of the leukemia cells with mafosfamide (ASTA Z7654) and stored in liquid nitrogen. Eight weeks after cytoreductive therapy and bone marrow transplantation we tried to immunize the mice against the lethal dose of the leukemia by i.p. injections of L1210-Maf cells (L1210 cells treated in vitro with mafosfamide for inhibition of their growth). About 75% of such mice were able to reject the subsequent 10(3) L1210 leukemia cell challenge, as compared with 70% of normal immunized mice and 55% of mice reconstituted with bone marrow cells not treated with mafosfamide.
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PMID:Induction of immune resistance against L1210 lymphatic leukemia in mice after chemoradiotherapy of the leukemia and reconstitution with bone marrow purged from the leukemia with mafosfamide. 304 30

Balb/c x DBA/2 F1 mice (CD2F1 mice) bearing L1210 lymphatic (10 L1210 cells i.p. injected on day 0) were subjected to chemoimmunotherapy. They received 100 mg/kg of cyclophosphamide i.p. on day +8 and 10(6) or 10(7) immunogenic L1210 cells treated in vitro with mafosfamide - ASTA Z7654 (L1210-Maf cells) i.p. or i.p. + s.c. on days 0, +3, +6, +9, +12 after the leukemia implantation. About 30% of leukemia-bearing mice receiving cyclophosphamide and L1210-Maf cells after L1210 inoculation were able to reject the leukemia (as compared with 0% after injection of L1210-Maf cells only or 5% after cyclophosphamide administration). Better results (54% of cured mice) were obtained if 10(7) L1210-Maf cells were injected i.p. +s.c. beside cyclophosphamide. Biological response modifiers (BRM's): levamisole, BCG, bestatin did not improve these results in the doses used in the experiment. Augmentation of anti-L1210 therapeutic response is dependent on the administration of cyclophosphamide and L1210-Maf cels. Cyclophosphamide not only reduces the tumor burden but probably can potentiate the L1210-Maf dependent antitumor immunity as well.
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PMID:Successful chemoimmunotherapy of murine L1210 lymphatic leukemia with cyclophosphamide and mafosfamide-treated leukemia cells. 319 82

Balb/c x DBA/2 F1 (CD2F1) mice were lethally irradiated (TBI) and reconstituted with syngeneic bone marrow cells (SBMT) untreated or treated with mafosfamide (ASTA Z 7654) for ex vivo purging of semisyngeneic L1210 leukemia (TBI + SBMT or TBI + SBMT-Maf mice, respectively). At various times after irradiation and reconstitution mice were injected intraperitoneally four times at weekly intervals with 10(6) immunogenic L1210-Maf cells (L1210 cells treated in vitro with mafosfamide for inhibition of their growth in vivo). As positive controls we immunized normal (non-irradiated) CD2F1 mice. Full resistance against L1210 leukemia (as compared to normal immunized mice) could be obtained in TBI + SBMT and TBI + SBMT-Maf mice when the immunization procedure was started from day +28 or day +56 after transplantation, respectively. Earlier immunization of TBI + SBMT mice (from day +14) or TBI + SBMT-Maf mice (from day +14 or +28) caused only partial resistance against the leukemia.
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PMID:Recovery of the ability to induce immune resistance against L1210 lymphatic leukemia in semisyngeneic CD2F1 mice after lethal irradiation and reconstitution with bone marrow purged of leukemia with mafosfamide (ASTA Z 7654). 333 91

6-Hydroxymethylacylfulvene (HMAF; MGI 114) is a novel semisynthetic antitumor agent derived from the sesquiterpene mushroom toxin illudin S. In vitro cytotoxicity determinations produced IC50 concentrations (concentrations required for 50% inhibition of growth) ranging from 160 nM in sensitive MCF-7 human mammary carcinoma cells to 17 microM in relatively insensitive murine B16 melanoma cells. In vivo antitumor activity was consistent with in vitro sensitivity. HMAF was very effective in human tumor xenograft models, including MX-1 breast carcinoma, MV522 lung adenocarcinoma, and HT-29 colon carcinoma, but not murine B16 melanoma or P388 leukemia. Excellent responses were observed in animals bearing MX-1 tumors administered i.v. or i.p. doses of 3-7.5 mg/kg daily for 5 days, with complete regression recorded in 29 of 30 animals administered i.v. HMAF. Extensive tumor shrinkage was also observed with MV522, and significant tumor growth inhibition was obtained with HT-29 when animals received 5 daily i.p. doses ranging from 3.75 to 7.5 mg/kg. Complete regressions were also observed in individual animals with MV522 and HT-29. The excellent activity of HMAF in several human solid tumor xenografts, including the more refractory MV522 and HT-29 models, warrants the further investigation of this novel agent in clinical trials.
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PMID:Preclinical antitumor activity of 6-hydroxymethylacylfulvene, a semisynthetic derivative of the mushroom toxin illudin S. 900 May 68

When Friend murine erythroleukemia (F-MEL) cells are induced to differentiate by dimethylsulfoxide (DMSO), erythroid-specific genes are transcriptionally activated. The erythroid transcription factor NF-E2 is essential for enhancer activity of the globin locus control regions. NF-E2 functions as a heterocomplex consisting of a 45-kDa subunit (NF-E2p45) and a 18-kDa subunit (NF-E2p18). The larger subunit NF-E2p45 is tissue-restricted and is believed to play a role in globin gene expression in F-MEL cells. The expression of the smaller subunit NF-E2p18, which is a Maf family member (MafK), is cell type- and developmental stage-specific. We have investigated the possible role of NF-E2p18 in Friend erythroid differentiation by stably transfecting either sense and antisense p18 constructs into differentiation-sensitive 745A and partially defective-differentiation TFP10 cell lines. Overexpression of NF-E2p18 induced expression of globin transcripts in both cell lines and increased their sensitivity to erythroid differentiation when exposed to DMSO. Conversely, inhibition of p18 expression by antisense transcripts resulted in the inhibition of DMSO-induced differentiation in both cell lines. These results indicate that NF-E2p18 is necessary for globin expression in F-MEL cells and that it is the predominant gene of the Maf family involved in DMSO-induced erythroid differentiation. Moreover F-MEL clones overexpressing NF-E2p18 showed an increase in specific NF-E2 DNA-binding activity whereas this activity was decreased in clones expressing antisense p18. Finally, studies using transient transfection assays showed that p18 activated NF-E2 site-dependent transcription in F-MEL cells. These data suggest that NF-E2p18 can participate in DMSO-induced erythroid differentiation of F-MEL cells by enhancing NF-E2 activity.
Leukemia 1997 Feb
PMID:NF-E2p18/mafK is required in DMSO-induced differentiation of Friend erythroleukemia cells by enhancing NF-E2 activity. 900 92

Using a yeast interaction screen with a DNA-bound Ets-1 protein we have identified MafB as a direct interaction partner. This distant AP-1 relative, which is specifically expressed in myelomonocytic cells, binds to the DNA binding domain of Ets-1 via its basic region/leucine zipper domain. MafB represses Ets-1 transactivation of synthetic promoters containing Ets binding sites in yeast as well as avian cells. Both Ets-1 and Maf family proteins have been implicated in erythroid specific gene expression. Here we show that MafB inhibits Ets-1-mediated transactivation of the transferrin receptor, which is essential for heme synthesis and erythroid differentiation. Consequently, overexpression of MafB in an erythroblast cell line down-regulates the endogenous transferrin receptor gene and inhibits the cells' potential to differentiate into erythrocytes, without affecting cellular proliferation.
Leukemia 1997 Apr
PMID:MafB represses erythroid genes and differentiation through direct interaction with c-Ets-1. 920 34

6-Hydroxymethylacylfulvene (HMAF, MGI 114) is a new alkylating antitumor sesquiterpenoid with promising and often curative antitumor activity in vivo. This study examined the ability of the drug to damage cellular DNA, induce apoptosis, and affect the cell cycle of CEM human leukemia cells. No bifunctional lesions, interstrand DNA cross-links or DNA-protein cross-links were seen (by alkaline sedimentation and K+/SDS precipitation, respectively) when using up to 50 microM HMAF. The drug possibly formed some monoadducts, as DNA from drug-treated cells impeded primer extension by Taq polymerase, although only partial inhibition was seen even at 200 microM HMAF. HMAF also induced secondary lesions in cellular DNA, single-strand breaks that were detectable (by nucleoid sedimentation and alkaline sucrose gradient analysis) after a 4-hr treatment at HMAF levels as low as 2 microM, comparable to the growth inhibition IC50 value (1.7 microM). A post-treatment incubation of cells in drug-free medium generated substantial amounts of DNA double-stranded fragments of several kbp, suggesting apoptotic fragmentation (>30% of total DNA following treatment with 20 microM HMAF and a 17-hr post-treatment incubation). Chromatin condensation (by ultrastructural analysis) and induction of sub-G1 particles and apoptotic strand breakage (by multiparametric flow cytometry) confirmed induction of apoptosis by HMAF. HMAF preferentially inhibited DNA synthesis (IC50 approximately 2 microM), which is consistent with an S phase block, observed by cell cycle analysis. The pattern of apoptotic DNA fragmentation, inhibition of DNA synthesis, and blockage in the S phase suggests that these events play a role in the antiproliferative activity of HMAF.
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PMID:Effects on DNA integrity and apoptosis induction by a novel antitumor sesquiterpene drug, 6-hydroxymethylacylfulvene (HMAF, MGI 114). 941 69

Hydroxymethylacylfulvene (HMAF, MGI 114) is a novel antitumor drug and a potent pro-apoptotic agent that has the potential to alkylate cellular nucleophiles. The objective of these studies was to characterize drug uptake and cellular targets for drug binding in human leukemia CEM cells. The uptake of [14C]HMAF had two components: a rapid phase (0-10 min) and a slow phase. At 10 microM drug (37 degrees), the rapid and slower phase amounted to 0.86 and 0.13 pmol/min/10(6)cells, respectively. HMAF uptake was inhibited 82% by low temperature (4 degrees) at 4 hr. Cell-associated HMAF localized to nuclear (50%), cytoplasmic (37%), and membrane fractions (10%). Continued drug uptake appeared to be driven by covalent binding to cellular macromolecules. Approximately 1/4 and 2/3 of cell-associated HMAF formed covalent adducts after 10 min and 4 hr, respectively, as found by perchloric acid precipitation. Drug adducts were not readily reversible; 77% of the covalently bound radiolabel was retained by the cells 20 hr after drug treatment. Combinations of DNase, RNase, and proteinase K with perchloric acid precipitation showed that approximately 60, 30, and 10% of the covalently bound drug was associated with the protein, DNA, and RNA fractions, respectively. Incubation of 100 microM [14C]HMAF (24 hr) with purified DNA, serum albumin, thioredoxin, and thioredoxin reductase resulted in 6, 22, 14, and 11 pmol [14C]HMAF/microg DNA or protein, respectively. Results indicate that multiple targets for HMAF binding may contribute to the pro-apoptotic and antiproliferative action of the drug.
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PMID:Drug uptake and cellular targets of hydroxymethylacylfulvene (HMAF). 1042 61

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