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

The tax protein of human T-cell leukemia virus type I (HTLV-I) is known to be a potent transactivator of its own long terminal repeat (LTR) promoter and the cellular genes (IL-2, IL-2R, c-fos and GM-CSF). These effects of tax have been studied in vitro, mostly in T-cell lines. To determine its function in vivo in multiple cell types, we have used two transgenic mouse lines in which tax is expressed under the control of the LTR (LTRtax) or murine Thyl. 2 (Thytax) transcriptional regulatory sequences. Tax protein is expressed in fibroblasts, salivary gland, skeletal muscle, bone matrix and thymus tissue. In these tissues the expression of endogenous IL-2R, c-fos, GM-CSF, Zif268, IL-6, and PDGF-B were studied. In fibroblastic tumors GM-CSF, IL-6, PDGF-B, Zif268, c-fos were expressed at high levels. No significant changes in expression of these genes were seen in other tissues. This suggests that tax mediated transcriptional transactivation alone is not sufficient to cause accumulation of these cellular gene products. Other events which occur during tax mediated transformation in vivo allow high levels of cellular gene expression constitutively.
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PMID:[HTLV-I tax mediated activation of cellular genes in transgenic mice]. 191 30

The drug 3'-azido-3'-deoxythymidine (AZT), a synthetic thymidine analogue, has been used clinically in the management of acquired immune deficiency syndrome (AIDS). The drug is an effective antiviral agent due to its ability to block reverse transcriptase activity. This action of AZT was demonstrated in the Rauscher leukemia virus (RLV)-induced murine erythroleukemia model system. Unfortunately, associated with AZT has been the development of hematopoietic toxicity manifested by anemia, neutropenia, and overall bone marrow suppression. Hematopoietic growth factors (GM-CSF, erythropoietin), cytokines (interleukin-1), and agents known to potentiate hematopoiesis (lithium) have been demonstrated to modulate drug and/or radiation-induced hematopoietic toxicity. We report the results of further studies designed to investigate the ability of GM-CSF, erythropoietin, interleukin-1, and lithium to modulate AZT toxicity on murine hematopoietic granulocyte-macrophage (CFU-GM), megakaryocytic (CFU-Meg), and erythroid (BFU-E) progenitors cultured from bone marrow and spleen cells from mice infected with RLV. Hematopoietic progenitors from either normal or RLV-infected animals when exposed to AZT demonstrated concentration-dependent toxicity and differed for each progenitor with BFU-E being the most sensitive (ID50 concentration, 5 x 10(-9) M) and CFU-GM the least sensitive (ID50 concentration, 5 x 10(-5) M). As has been previously demonstrated using normal murine hematopoietic progenitors, when cultured with RLV-infected marrow or spleen cells, addition of GM-CSF, Meg-CSF or erythropoietin failed to inhibit AZT toxicity in vitro on CFU-GM, CFU-Meg, and BFU-E, respectively. However, in the presence of interleukin-1 (recombinant human IL-1 alpha, 30 ngm) or lithium chloride (ultra-pure, 1.0 mM), AZT toxicity CFU-GM, CFU-Meg, and BFU-E cultured from RLV-infected marrow or spleen cells was reduced. These results further demonstrate interleukin-1 and lithium are effective in modulating the toxic action of AZT on hematopoietic progenitors and that RLV-infected animals serve as a useful viral model system to study the effect of agents capable of modulating hematopoiesis in the presence of the anti-viral drug AZT.
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PMID:Effect of interleukin-1, GM-CSF, erythropoietin, and lithium on the toxicity associated with 3'-azido-3'-deoxythymidine (AZT) in vitro on hematopoietic progenitors (CFU-GM, CFU-MEG, and BFU-E) using murine retrovirus-infected hematopoietic cells. 194 Jun 11

Evidence is presented that human monocytes and acute myeloblastic leukemic (AML) cells contain both high and low affinity binding sites for interleukin-4 (IL-4). On monocytes 183 +/- 132 high affinity binding sites per cell with a Kd of 60 +/- 29 pM and 1500 +/- 600 low affinity receptors with a Kd of 2.3 +/- 0.4 nM (X +/- S.D., n = 6) could be demonstrated. On AML cells (n = 11) a comparable number and binding affinity of IL-4 receptors were observed (77 +/- 36 high affinity receptors with Kd 72 +/- 31 pM and 2400 +/- 1000 low affinity receptors with Kd of 2.2 +/- 0.7 nM). In addition, no cross-competition was shown between radiolabeled IL-4 and IL-1-alpha, IL-3, IL-6, IL-7, G-CSF, and GM-CSF. Both types of receptors on monocytes as well as on leukemic blasts could be down-modulated in a similar fashion by IL-4 and activators of protein kinase C (PKC), but not by the calcium ionophore A23187. The down-modulation by PKC activators was caused by an increased internalization, degradation and release of radiolabeled IL-4 in the medium. Finally, the functionality of the IL-4 receptors were tested on AML cells with a 3H-thymidine proliferation assay. In 8/11 cases IL-4 affected AML proliferation. These data demonstrate two different binding sites for IL-4 on normal and leukemic cells, which can be modulated by external activation signals in an analogous way.
Leukemia 1991 Sep
PMID:Expression and regulation of IL-4 receptors on human monocytes and acute myeloblastic leukemic cells. 194 30

A 78-year-old woman with acute myelogenic leukaemia (AML M5 (FAB)) was treated with standard induction chemotherapy followed by recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) (250 micrograms/m2/day) in an effort to accelerate neutrophil recovery. After 10 days of rhGM-CSF therapy, increasing numbers of promonocytes and monocytes were detected in the peripheral blood, with a maximum total white blood count of 14,900/microliters of which 39% were promonocytes, 39% monocytes, and only 3% neutrophils. The bone marrow during GM-CSF therapy was hypercellular and contained 95% monocytic forms. After discontinuation of rhGM-CSF, this monocyte lineage stimulation was completely reversible. Without further chemotherapy the patient entered a complete remission after 9 months and is now relapse free after 24 months. Since the stimulation was restricted to the previously leukaemic lineage of this patient, the profound monocytosis observed in this case suggests the possibility that GM-CSF may exert reversible effects on the proliferation of clonogenic cells in acute monocytic leukaemia.
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PMID:Reversible leukaemic regrowth under GM-CSF treatment after chemotherapy for AML. 199 44

Acute myeloid leukemia (AML) was induced in C57Bl mice through the i.v. innoculation of C-1498 cell line. One week later, i.e. at mid-term disease, the leukemic mice received an i.p. injection of 200 ng rmGM-CSF and 24 h later, two consecutive i.p. cytosine arabinoside (ara-C) injections at 6 h intervals (2 x 200 mg/kg). The leukemic mice received 3-4 weekly courses of combined therapy and survived 4-5 weeks following leukemia induction. Control mice received ara-C only and survived 2-3 weeks. Moreover, leukemic mice administered both GM-CSF and ara-C had a lower marrow leukemic load than mice treated with ara-C only. From these findings, we conclude that therapy of murine AML with combined rmGM-CSF and ara-C is more effective than ara-C only. Leukemic mice treated with GM-CSF and ara-C had a longer life expectancy and a smaller leukemic load than mice administered ara-C only.
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PMID:Improved prognosis in mice with advanced myeloid leukemia following administration of GM-CSF and cytosine arabinoside. 204 85

In HL-60 leukemia cells the site-selective cAMP analog, 8-Cl-cAMP, at a dose of 5 microM produced growth inhibition with no signs of toxicity, whereas granulocyte-macrophage colony stimulating factor (GM-CSF) exerted an early transient increase of cell proliferation which was followed by differentiation toward monocytes. 8-Cl-cAMP in combination with GM-CSF blocked the growth stimulation due to GM-CSF and demonstrated a synergistic effect on the differentiation of HL-60 cells. The early proliferative effect of GM-CSF was correlated with an increased expression of type I regulatory subunit of cAMP-dependent protein kinase (RI alpha). Treatment with an RI alpha antisense oligodeoxynucleotide suppressed the GM-CSF-inducible cell proliferation and differentiation. Conversely, an RII beta antisense oligodeoxynucleotide, which suppresses the RII beta and causes a compensatory increase in RI alpha level, greatly enhanced the early proliferative input and the differentiation induced by GM-CSF. These results provide an insight into the mechanism of action of GM-CSF and the rationale for a combination differentiation therapy with 8-Cl-cAMP and GM-CSF.
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PMID:Cooperative effect of 8-Cl-cAMP and rhGM-CSF on the differentiation of HL-60 human leukemia cells. 205 4

We investigated the induction of tissue factor by lymphokines in human monoblastic leukemia cell lines (U937) and leukemic cells from AML (acute myelogenous leukemia) patients. After incubation for 24 h, IL-2 enhanced the intracellular tissue factor 15-fold with U937 cells, and GM-CSF enhanced it 6-fold. In contrast, other lymphokines, such as IL-1-alpha, IL-1-beta, IL-3, IL-4 and G-CSF, did not affect the activity of tissue factor. The leukemic blasts, depleted of T-lymphocytes, taken from five out of 16 AML patients showed a 2.5-14-fold increase in the activity of tissue factor per cell following incubation with 200 u/ml of IL-2 for 72 h. The IL-2 induced tissue factor activity more markedly than GM-CSF. Tissue factor stimulation by IL-2 did not correlate with the expression of the IL-2 receptor, Tac, but correlated well with FAB classification of AML cells. IL-2 responders were found in M4 and M5 subtypes only, but not all M4/M5 leukemias responded to IL-2. These findings indicate that IL-2 can mediate the tissue factor induction in the monocytic type of AML and the effect is not mediated by Tac receptors. This may shed a new light on our understanding of hypercoagulability in acute monoblastic leukemia.
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PMID:Induction of tissue factor by interleukin-2 in acute myelogenous leukemia (AML) cells. 208 39

During a trial using recombinant human interleukin-2 (rhIL-2) immunotherapy for acute myeloblastic leukaemia (AML) in remission, eosinophilia was observed in all patients. We used in-vitro clonogenic assays to investigate the mechanism of the eosinophilia in five patients. The mean eosinophil count increased from 0.05 x 10(9)/l before rhIL-2 to 0.98 x 10(9)/l within 48 h of stopping the infusion, and an exponential correlation between the pretreatment lymphocyte CD4:CD8 ratio and the maximum eosinophil count was observed. RhIL-2 did not stimulate eosinophil colony formation by normal bone marrow. However, serum collected from patients during rhIL-2 infusion was a potent stimulator of eosinophil colony forming units (CFU-Eo), but had no significant stimulatory effect on granulocyte-macrophage colony forming units (CFU-GM). The CFU-Eo stimulation by pre-treatment serum was 2.8-fold higher than control serum. Serum collected during treatment stimulated CFU-Eo 12 times more than control serum (P less than 0.05). By pre-incubating patient serum, collected during rhIL-2 treatment, with monoclonal antibodies to murine IL-5, or human granulocyte-macrophage colony stimulating factor (GM-CSF), a reduction of 80% and 38% respectively in eosinophil and GM colony production was found. The CFU-Eo stimulating effect of patient serum was in the range of the CFU-Eo stimulating effect of normal serum, after the addition of 5 u/ml of recombinant murine IL-5. The results suggest that eosinophilia was caused by IL-5 and GM-CSF production by rhIL-2 stimulated CD4 positive lymphocytes. The location on chromosomes 5 of the genes for IL-5, GM-CSF and IL-3 may be associated with regulation of expression, by a common mechanism, of all the factors known to be involved in eosinophil production. This mechanism may be activated by IL-2 stimulation. The separate location on chromosome 17 of the G-CSF gene may explain the ability of IL-2 to produce a distinct stimulus to eosinophil but not neutrophil production.
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PMID:Interleukin-2 treatment-associated eosinophilia is mediated by interleukin-5 production. 209 20

Avian erythroblastosis virus (AEV) is a replication-defective retrovirus that transforms erythroid and fibroblast cells in vitro and in vivo. The transforming ability of AEV is due primarily to the oncogene v-erb-B. A recombinant murine retrovirus has been constructed by inserting a chimeric gag-v-erb-B gene into a Moloney murine leukemia virus based vector. This retrovirus was used to examine v-erb-B-induced transformation of murine hematopoietic cells. Infection of murine primary fetal liver, adult bone marrow or adult spleen cells with the recombinant virus generated large hemoglobinized erythroid colonies in the absence of exogenous growth factors. Generation of such colonies usually requires the presence of erythropoietin (Epo) and interleukin-3 (IL-3). These growth-factor independent colonies were shown to be derived from early (BFU-E) and not late (CFU-E) erythroid progenitor cells, and the effect was not attributable to growth factors elicited by the virus-producing cell lines. In order to confirm that the recombinant virus was responsible for this transformation of BFU-E to growth factor independence, bone marrow cells from post 5-fluorouracil treated mice were infected and used to repopulate lethally-irradiated mice. Growth factor-independent BFU-E were obtained in up to 30% of day-13 spleen colonies and it was shown by DNA analysis that cells from these colonies contained integrated provirus. Our results indicate that v-erb-B transforms early erythroid progenitors to growth factor independent growth and subsequent differentiation to erythrocytes -a process that normally requires Epo plus either IL-3 or granulocyte-macrophage colony stimulating factor (GM-CSF).
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PMID:Transformation of early erythroid precursor cells (BFU-E) by a recombinant murine retrovirus containing v-erb-B. 216 27

The influence of GM-CSF on bone marrow cultures from 13 patients with aplastic anemia, MDS and acute leukemia was studied in a short-term suspension culture system. In each case combined cytogenetic and proliferation analyses were performed with respect to the question, whether chromosome aberrations play a role in the in vitro response to GM-CSF and in order to search for stimulating effects on malignant cells. The responsiveness was compared of aplastic and myelodysplastic cultures on the one hand and of leukemic cells on the other. Our results show that myelodysplastic and aplastic cells display a tendency for reduced susceptibility to GM-CSF as compared to healthy controls, while in leukemic bone marrow the response to the growth factor was significantly enhanced, indicating a leukemia-specific response pattern. In the majority of leukemias analyzed, the presence of cytogenetically abnormal cells in cultures with excessive response to GM-CSF can be taken as a proof for stimulation of malignant cells. The significance of these findings for pathogenesis and prognosis in aplastic anemia, myelodysplasia and leukemia is discussed.
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PMID:Karyotype and in vitro-response to GM-CSF. Analysis of bone marrow cultures in leukemia, myelodysplasia and aplastic anemia. 218 May


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