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:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Clinical experiences with recombinant granulocyte colony-stimulating factor (rhG-CSF) in 13 acute (AML) and four chronic (CML) myelogenous leukemia patients are reported. Sixteen patients received rhG-CSF in support of treatment for life threatening infections and one CML patient in support of induction chemotherapy. After their first induction chemotherapy, six out of eight AML patients showed a rapid increase of neutrophils, recovered from infections and achieved complete remission (CR). One patient, in whom both neutrophils and blasts had increased during rhG-CSF administration, achieved CR through the next administration of chemotherapy (CR rate 87.5%). The last of the eight AML patients showed no increase of neutrophils, and died of interstitial pneumonitis. Two of five AML patients who received rhG-CSF after reinduction chemotherapy for relapsed or refractory leukemia achieved CR, a rate of 40%. In one of the two, the administration of rhG-CSF prior to induction chemotherapy seemed advantageous in achieving CR. During rhG-CSF administration, an increase of blastic cells in peripheral blood was observed in four out of all 13 AML patients. One of three CML patients, with a lymphoid crisis, showed an increase only of neutrophils, and recovered from infection. The other two showed increases of both neutrophils and blasts. One patient with CML in blastic crisis, undergoing induction chemotherapy with rhG-CSF administration, returned to the chronic phase. These clinical experiences suggest rhG-CSF to be effective in supporting infection therapy and in possibly enhancing the sensitivity of myelogenous leukemic blasts to antileukemic agents.
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PMID:Clinical effect of granulocyte colony-stimulating factor on neutrophils and leukemic cells in myelogenous leukemia: analysis. 171 59

The therapeutic and hematological effects of recombinant human granulocyte colony-stimulating factor (rhG-CSF) in combination with cyclophosphamide (CY) were investigated in a murine myeloid leukemia model. Ten daily administrations of rhG-CSF following CY prolonged the survival time of leukemic mice more than either agent alone. Hematological examination indicated that this effect was attributable to suppression with rhG-CSF of the leukemic repopulation after CY injection. In addition, rhG-CSF accelerated recovery from CY-induced neutropenia. Based on these hematological changes, a treatment regimen was established consisting of a single injection of CY on day 1 and daily injections of rhG-CSF on days 2-6; this combination treatment was given to the leukemic mice for up to four cycles, with a pause of one day between each cycle. The leukemic mice completed each cycle of treatment with few failures, and it resulted in a long survival time for the leukemic mice. The mean survival time of the mice receiving four cycles of treatment was 47 days, 30 days longer than that of the untreated mice. Hematological examination performed at the end of each cycle showed that the leukemic cell population was controlled at a level equal to or below the pre-treatment level, and peripheral blood neutrophils were maintained at a level equal to or above the normal level. These results indicate the possible effectiveness of combining rhG-CSF with chemotherapeutic drugs in controlling leukemic cell growth, and the effectiveness of rhG-CSF in enhancing neutrophil recovery after chemotherapy. However, it was found that the leukemic cells became resistant to treatment with rhG-CSF after four cycles of combination treatment, suggesting that great care should be taken in the clinical application of rhG-CSF, even when the growth of acute myelogenous leukemia cells is not apparently stimulated by it.
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PMID:Long survival of leukemic mice by repeated combination treatment of cyclophosphamide and recombinant human granulocyte colony-stimulating factor. 172 31

The hemolymphopoietic growth factors, including the colony-stimulating factors (CSF) and interleukins (IL), are described and categorized on the basis of their biological features in laboratory systems. Although these agents are varied and exceptions exist, in general they lack lineage specificity although they may express lineage-predominant activity. They act at multiple levels of hemolymphopoietic cell differentiation, demonstrate additive or synergistic effects when combined in vitro, require surface receptors on target cells to directly express their activity, and may be produced by a variety of cells. This framework of behavioral generalizations, completed by the specifics of each factor's activity, despite the artifactual and simplified nature of in vivo systems, forms the basis for concepts of in vitro activity and for clinical applications. Hemolymphopoietic growth factors studied in the clinic have demonstrated impressive and important activity, validating much of the in vitro data. Granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) have clearly reduced neutropenia and infection rates when administered following conventional chemotherapy and high-dose chemotherapy followed by autologous bone marrow transplantation. To a varying degree, similar results with G-CSF and/or GM-CSF have been described in other diseases including acute myelogenous leukemia (AML) treated following induction chemotherapy, myelodysplastic syndrome, hairy cell leukemia, aplastic anemia, and chronic neutropenias. In preliminary studies IL-3 has been shown to have similar qualitative activities. However, these agents have not demonstrated a reproducible salutary impact on platelet or red cell lineages. Adverse effects on platelet counts and/or platelet recovery have been noted. Additionally, hemolymphopoietic growth factor receptors have been identified on malignant cells, suggesting that these factors could stimulate neoplastic growth. Studies with GM-CSF and IL-3 have demonstrated blast proliferation in some cases of AML and myelodysplasia, underscoring the capacity of these agents to stimulate the growth of myeloid leukemia. No clinically evident impact of these factors upon the growth of solid tumors has been identified but this issue has not been adequately studied. The toxicity of these agents has been surprisingly limited and appears to be related to their biologic activities. Hemolymphopoietic growth factors as single agents have broad clinical applications in cytopenias. Several methods for enhancing the clinical activity of these agents are under study, including the use of combinations of growth factors synergistic in vitro.
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PMID:Recombinant human hematopoietic growth factors in the treatment of cytopenias. 172 85

Acral erythema (AE) and eccrine squamous syringometaplasia (ESS) are distinctive clinico-pathological entities described in patients receiving chemotherapy for malignancies, mainly myelogenous leukemia. In no case of chemotherapy-induced AE have histopathologic changes of ESS been described. We report a patient with acute myelogenous leukemia who had typical AE due to cytarabine with histopathologic ESS. The latter findings in a case of AE may be a useful diagnostic clue for distinguishing chemotherapy-induced AE from palmo-plantar erythema of graft-vs-host reaction.
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PMID:Necrotizing eccrine squamous syringometaplasia presenting as acral erythema. 177 55

The effect of recombinant interleukin-2 (IL-2) on the proliferation of T-cell depleted leukemic blasts was evaluated in 23 patients with acute myelogenous leukemia (AML). For this purpose, the effect of IL-2 on cell growth, [3H]-thymidine incorporation into the blasts and the expression of IL-2 receptors on cell surface using T-cell depleted blasts were studied. The results showed that IL-2 stimulated [3H]-thymidine incorporation significantly in blasts of 8 out of 23 cases of AML. An IL-2 induced increase in cell number was directly demonstrated in seven out of eight IL-2 responsive patients studied. IL-2 stimulated the proliferation of blasts in monocytic lineage (M4 and M5), but not all M4/M5 leukemics responded to rIL-2. Stimulation of the growth of leukemic cells was not correlated with the expression of Tac antigen on the cell surface, but it was significantly correlated with the expression of IL-2 receptor (IL-2R) beta chain on the cell surface. These results indicate that IL-2 is an active growth factor in certain myeloid leukemia cells, especially of monocytic type.
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PMID:Growth of certain myeloid leukemic cells can be stimulated by interleukin-2. 177 32

In the light of high sensitivity of fresh bone marrow blast progenitor of human myeloid leukemia (L-CFU) towards the action of low molecular tumor suppressor isolated from human fetal liver, massive bone marrow was aspirated from the patients suffering from acute myeloid leukemia at the stage of first complete remission and cocultured in a long-term bone marrow culture system for 9 days. The purged marrow cells were then re-infused into the patients after preconditioning with large doses of cytotoxin and acute ionizing irradiation. Hematopoiesis was reconstituted due to the autologous transplantation in vivo. After the autologous bone marrow transplantation without chemical treatment, two cases are still survival with the time of more than 17 and 15 months respectively.
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PMID:[Autologous bone marrow transplantation after purging by low molecular weight natural tumor suppressor in long-term marrow culture in vitro: report on 2 cases]. 179 47

Myeloid leukemic progenitor cells proliferate in vitro in response to a variety of humoral factors, the most prominent among these being granulocyte-macrophage colony-stimulating factor (GM-CSF). The mechanism by which GM-CSF transduces its proliferative signal in acute myeloid leukemia has been extensively investigated over the past year. It is now known that the GM-CSF belongs to a new family of hematopoietic growth factor binding proteins which are characterized by a relatively short intracytoplasmic domain that lacks a tyrosine kinase sequence. Nevertheless, studies performed using GM-CSF-dependent leukemic cell lines demonstrate the appearance of several new phosphotyrosine species after GM-CSF exposure, suggesting that receptor activation is directly or indirectly linked to tyrosine kinase stimulation. Apart from the basic biology of GM-CSF-induced signal transduction, the ability of this factor to enhance the S-phase fraction of myeloid leukemia blasts may have important therapeutic implications. Clinical trials are currently being conducted in an attempt to determine whether GM-CSF is able to overcome kinetic resistance of leukemic myeloblasts to cell cycle-specific agents such as cytarabine in the treatment of patients with acute myeloid leukemia.
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PMID:Growth regulation of malignant clonogenic cells in acute myeloid leukemia. 182 75

Expression of p53 oncogene in blast cells may have prognostic importance in acute leukemia. Simple and reliable methods which could detect enhanced p53 expression in leukemia cells would be important for follow-up studies of leukemia patients in remission. We used immunoperoxidase (IP) technique with an anti-p53 monoclonal antibody PAb421 to study the expression of p53 in leukemia cells. The expression of p53 was studied in 9 cell lines and 17 de novo acute leukemia (9 acute myeloid leukemia [AML], 8 acute lymphoblastic leukemia [ALL]) patients. The expression of p53 was demonstrated in non-T non-B cells and Burkitt's lymphoma cell lines, but neither in two myeloid leukemia cell lines nor in normal lymphoid cells after mitogenic stimulation. p53 expression was demonstrated in 7 cases (2 AML, 5 ALL) but only in ALL cases the percentage of positive of cells was over 20%. Bone marrow cells from patients were studied also after short-term culture (AML patients); in 1 case the number of PAb421-positive cells rose significantly after culture. These data suggest that IP staining with PAb421 can be used to demonstrate high p53 expression in B cell leukemias.
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PMID:Detection of p53 oncogene in acute-leukemia cells by immunoperoxidase technique. 185 83

To define the clinical and biologic significance of childhood acute mixed-lineage leukemia diagnosed by stringent criteria, we studied 25 cases of acute lymphoblastic leukemia expressing greater than or equal to 2 myeloid-associated antigens (My+ ALL), and 16 cases of acute myeloid leukemia expressing greater than or equal to 2 lymphoid associated antigens (Ly+ AML). These cases represented 6.1% of 410 newly diagnosed ALLs (two treatment protocols) and 16.8% of 95 AMLs (two protocols). T-lineage--associated antigens were identified in 9 of the My+ ALL cases and in 14 of those classified as Ly+ AML; all but 1 of the 19 cases that could be subclassified had an early thymocyte stage of differentiation. The My+ ALL cases had an increased frequency of French-American-British (FAB) L2 morphology (36%); the Ly+ AML cases were characterized by FAB M1 or M2 morphology, low levels of myeloperoxidase reactivity and combined populations of myeloperoxidase-positive large blasts and small blasts generally of hand-mirror morphology. Karyotypic abnormalities included t(9;22)(q34;q11) in three cases of My+ ALL, 11q23 translocations in two cases of My+ ALL, and 14q32 translocations in three My+ ALL and five Ly+ AML cases. Mixed-lineage expression lacked prognostic significance in either ALL or AML; however, the findings indicate that some patients with Ly+ AML may respond to prednisone, vincristine, and L-asparaginase after failing on protocols for myeloid leukemia. At relapse, two My+ ALLs had converted to AML and two Ly+ AMLs to ALL; one case in each group showed complete replacement of the original karyotype. Acute mixed-lineage leukemia does not adequately describe the heterogeneity of the cases identified in this study and should be replaced by a set of more restrictive terms that indicate the unique biologic features of these leukemias.
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PMID:Characterization of childhood acute leukemia with multiple myeloid and lymphoid markers at diagnosis and at relapse. 158 28

Expression of the 93-kd tyrosine kinase encoded by the human c-fes proto-oncogene (also known as FES) is restricted to mature hematopoietic cells of the granulocytic and monocytic lineages, suggestive of a function essential to normal myeloid differentiation. However, recent studies have shown that c-fes can transform fibroblasts if sufficient levels of gene expression are achieved. These findings indicate that strict regulation of the c-fes gene is critical to normal myeloid development, whereas elevated c-fes expression may contribute to malignant transformation. In the present study, we compared the c-fes messenger RNA (mRNA) levels in leukemia blasts from patients with myeloid or lymphoid leukemia with those of peripheral monocytes from a normal donor with the use of a quantitative ribonuclease protection assay. The presence of c-fes mRNA was readily detected in both acute myeloid leukemia (AML) and chronic myeloid leukemia (CML) cells, but c-fes mRNA was present in low levels or was absent in lymphoid leukemia cells. The leukemia cells of two of five AML patients and four of four CML patients expressed more c-fes mRNA than monocytes from a normal donor, with more than a threefold elevation in the cells of one CML patient. No evidence of amplification or rearrangement of the c-fes gene was detectable by Southern blot analysis of myeloid leukemia DNA, suggesting that the variation in c-fes mRNA levels are related to differences in transcriptional activity and/or message stability. These results indicate that elevated c-fes expression is a common feature of myeloid leukemia cells that could potentially contribute to the leukemia phenotype.
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PMID:Elevated expression of the c-fes proto-oncogene in adult human myeloid leukemia cells in the absence of gene amplification. 198 16


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