Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We analyzed the rearrangement of T-cell receptor (TcR) delta chain gene in 196 cases of hematological malignancies. This rearranged band (s) was observed in 15% of the total cases investigated. All T-ALL patients and cell lines, except for P30/Okubo, had a new band (s) or deletion of J delta 1 gene locus, indicating the gamma delta T-cell type or the alpha beta T-cell type. In the other T-cell malignancies, the delta rearranged band (s) was recognized in 5% of T-cell lymphomas, 20% of AILD but not in ATL, Hodgkin's disease, T-CLL. Inappropriate delta rearrangement was frequently recognized in 63% of B-ALL and 50% of CML-BC but none or few (5% less) in B-CLL, B-lymphoma and AML. Southern blotting, using J delta 1 and V delta gene probes or Pst I enzyme digestion, indicated that the inappropriate delta rearranged band in B-ALL and CML-BC is V delta 2D or DD without a J delta locus. The rearranged band (s) involved J delta locus, was mostly recognized in 5/6 cases of CD7 (+) stem cell leukemia. Therefore, the TcR delta gene is useful in evaluating clonality for the most immature T-cell neoplasms, not showing rearrangement of the other TcR genes. Moreover, this delta gene may be a useful tool for distinguishing T-lineage from the other lineages, using the characteristic rearrangement pattern (V delta 2D as a inappropriate pattern, or (D) DJ and V (D) DJ as the T-lineage pattern (s)).
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PMID:[Analysis of T-cell receptor delta chain gene in hematological malignancies]. 132 69

The SCL (tal-1, TCL5) gene is a member of the basic domain, helix-loop-helix (bHLH) class of putative transcription factors. We found that (i) the SCL promoter for exon Ia contains a potential recognition site for GATA-binding transcription factors, (ii) SCL mRNA is expressed in all erythroid tissues and cell lines examined, and (iii) SCL mRNA increases upon induced differentiation of murine erythroleukemia (MEL) cells, and inferred that SCL may play a physiologic role in erythroid differentiation. We used gel shift and transfection assays to demonstrate that the GATA motif in the SCL promoter binds GATA-1 (and GATA-2), and also mediates transcriptional transactivation. To identify a role for SCL in erythroid differentiation, we generated stable transfectants of MEL and K562 (a human chronic myelogenous leukemia cell line that can differentiate along the erythroid pathway) cells overexpressing wild-type, antisense or mutant SCL cDNA. Increasing the level of SCL expression in two independent MEL lines (F4-6 and C19, a 745 derivative) and K562 cells increased the rate of spontaneous (i.e. in the absence of inducer) erythroid differentiation. Conversely, induced differentiation was inhibited in MEL transfectants expressing either antisense SCL cDNA or a mutant SCL lacking the basic domain. Our experiments suggest that the SCL gene can be a target for the erythroid transcription factor GATA-1 and that the SCL gene product serves as a positive regulator of erythroid differentiation.
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PMID:The SCL gene product: a positive regulator of erythroid differentiation. 139 92

We report a case of Ph1-negative, bcr-negative CML-BC, in which the primary leukemic cells displayed T-related antigens (CD7, CD4) in addition to HLA-DR and CD25 determinants. No B-lymphoid, myeloid and megakaryoblastic surface antigens were detected. In spite of this phenotype, DNA analysis revealed a germ-line configuration of the T-cell receptor beta chain gene region. Moreover, in-vitro culture studies demonstrated a proliferative response of the blast cell population to natural and recombinant myeloid-related factors, while no proliferative signal was observed in the presence of IL-2. The myeloid lineage was further demonstrated by the expression of myeloid-associated antigens on cultured blast cells, which still retained the CD7 antigen. Finally, cytogenetic analysis revealed a monosomy 7 which is usually associated with a stem cell leukemia. These results support the hypothesis that Ph1-negative, bcr-negative CML is characterized by the involvement of a multipotent stem cell capable of multilineage expression and indicate that differentiative and proliferative assays provide a further tool towards a more precise recognition of hematological disorders of uncertain origin.
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PMID:Multilineage cell involvement in Ph1-negative, bcr-negative chronic myeloid leukemia. 326 50

To understand the clinical implications of transcription factors and their biologic roles during cellular differentiation in the hematopoietic system, we examined the expression of GATA-1, GATA-2, and stem cell leukemia (SCL) gene in human leukemia cell lines and various leukemia patients using the reverse transcriptase-polymerase chain reaction. Cell lines exhibiting megakaryocytic or erythrocytic phenotypes had GATA-1, GATA-2, and SCL gene transcripts, while monocytic cell lines had no detectable GATA-1, GATA-2, or SCL gene mRNA. In some myeloid cell lines, GATA-1 expression, but not SCL gene expression, was detected; GATA-1 expression in HL-60 cells was downregulated during the process of monocytic differentiation. We next examined GATA-1, GATA-2, and SCL gene expression in 110 leukemia samples obtained from 76 patients with acute myeloid leukemia (AML), 19 with acute lymphoblastic leukemia (ALL), and 15 with chronic myeloid leukemia in blast crisis (CML-BC). SCL gene expression was usually accompanied by GATA-1 expression and was preferentially detected in patients with leukemia exhibiting megakaryocytic or erythrocytic phenotypes, while patients with monocytic leukemia were clustered in the group with no detectable GATA-1 expression. None of the patients with ALL or CML-lymphoid-BC expressed SCL. De novo AML patients with SCL gene expression had a lower complete remission (CR) rate and had a significantly poorer prognosis. Among the patients with AML not expressing SCL, a high percentage of patients with CD7+ AML and CD19+ AML had detectable GATA-1, while patients with GATA-1-negative AML had the best CR rate (87.5%). Our results suggest that the expression pattern of transcription factors reflects the lineage potential of leukemia cells, and GATA-1 and SCL gene expression may have prognostic value for the outcome of patients with AML.
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PMID:The expression pattern of erythrocyte/megakaryocyte-related transcription factors GATA-1 and the stem cell leukemia gene correlates with hematopoietic differentiation and is associated with outcome of acute myeloid leukemia. 757 12

We investigated expression of the human ecotropic virus integration site-1 (EVI1) gene in patients with leukemia and myelodysplastic syndrome (MDS) using the reverse transcriptase-polymerase chain reaction (RT-PCR) method. The EVI1 transcripts were detected in 5 (10.0%) of 50 patients with de novo acute myeloid leukemia (AML), including two AML patients with trilineage myelodysplasia, and in 8 (34.8%) of 23 patients with post-myelodysplastic syndrome AML (post-MDS AML). EVI1 expression was also detected in 6 (35.3%) of 17 MDS patients and three of six patients with chronic myeloid leukemia (CML) in myelomegakaryoblast crisis. No EVI1 transcripts were detected in patients with acute lymphoid leukemia (n = 15) or CML in lymphoid blast crisis (n = 4). Chromosomal abnormalities at the 3q26 region, where the EVI1 gene is located, were found in one patient with MDS and two patients with CML myelomegakaryoblast crisis who had EVI1 expression. Our results showed that EVI1 expression was frequent in patients with post-MDS AML and AML with trilineage myelodysplasia, regardless of the presence or absence of 3q26 abnormalities. EVI1 expression was accompanied by expression of GATA-1 and GATA-2, and often by stem cell leukemia (SCL) gene expression. In patients with post-MDS AML, EVI1 expression was not always associated with a 3q26 abnormality, whereas EVI1 expression in CML myelomegakaryoblast crisis was often linked to a 3q26 abnormality. Our results suggest that the leukemogenic role of EVI1 expression may differ between post-MDS AML and leukemia, with EVI1 expression associated with a 3q26 abnormality.
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PMID:Ecotropic virus integration site-1 gene preferentially expressed in post-myelodysplasia acute myeloid leukemia: possible association with GATA-1, GATA-2, and stem cell leukemia gene expression. 778 Jan 55

Juvenile chronic myelocytic leukemia (JCML) is a rare disorder of early childhood. Characteristic of JCML are the progressive appearance of high levels of fetal hemoglobin (HbF), reflecting a true reversion to a fetal type of erythropoiesis, and the presence of colony-forming cells able to grow in vitro spontaneously in the absence of growth factors. To better understand the relationship between the erythroid abnormalities and the leukemic process, we analyzed the expression pattern of specific genes related to erythroid differentiation--GATA-1, EPOR, alpha-globin, beta-globin, and gamma-globin genes--in JCML peripheral blood (PB) cells and in vitro-derived colonies. Northern blot analysis of PB cells from five JCML patients indicated levels of GATA-1 transcripts much higher than those usually found in other types of leukemic cells, and S1 nuclease protection assay detected significantly increased expression of gamma-globin mRNA. Reverse transcription-polymerase chain reaction (RT-PCR) analysis of single granulocyte-macrophage colony-forming unit (CFU-GM) colonies, obtained in vitro in the absence of added growth factors from four JCML patients, detected GATA-1, EPOR, and globin (alpha and gamma) transcripts in most of the colonies tested, in contrast with control CFU-GM from normal bone marrow, which were positive only for GATA-1. Single JCML colonies were tested for the presence of two different transcripts; whereas alpha- and gamma-globin genes appeared mostly coexpressed, beta-globin mRNA was detected only in a minority of the gamma-globin-positive colonies, indicating that the leukemic pattern of hemoglobin synthesis is mainly fetal. In addition, the leukemic cells occurring during blast crisis of one of our patients displayed the typical features of a stem cell leukemia (CD34+, CD19-, CD2-, myeloperoxidase-). In this sorted CD34+ population, we detected the presence of a marker chromosome, der(12)t(3;12), previously identified in bone marrow cells at diagnosis and an expression pattern superimposable to that of the JCML colonies, consistently displaying a high gamma-globin:beta-globin mRNA ratio. The expression of erythroid markers within populations of leukemic cells, both in vivo and in vitro, supports the hypothesis that abnormal JCML erythroid cells may originate from the same mutated progenitor that sustains the growth of the leukemic cells.
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PMID:Constitutive expression of GATA-1, EPOR, alpha-globin, and gamma-globin genes in myeloid clonogenic cells from juvenile chronic myelocytic leukemia. 779 40

Two leukemia cell lines, TS9;22 and YS9;22, were established from different individuals with Philadelphia chromosome (Ph)-positive chronic myeloid leukemia in blast crisis. The reverse transcript-polymerase chain reaction (RT-PCR) technique revealed that both cell lines expressed GATA-1, GATA-2, and the stem cell leukemia (SCL) gene, consistent with a megakaryocyte lineage. Chromosome analysis revealed that TS9;22 cells show the Ph translocation without abnormality of chromosome 3. In contrast, YS9;22 cells show the Ph translocation and dic(3)(q26;p12). Northern analysis revealed that YS9;22 cells express the EVI1 (ecotropic virus integration-1) gene, possibly because of the chromosomal translocation in the 3q26 region; TS9;22 cells do not express EVI1. However, no rearrangements were detected over 600 kb upstream or over 900 kb downstream of EVI1 in the YS9;22 cell line, suggesting a different mechanism of EVI1 activation from that in leukemia cells with either a t(3;3)(q21;q26) or inv(3)(q21q26). These results indicate that EVI1 expression in YS9;22 cells is linked to the 3q26 abnormality and that EVI1 activation plays an oncogenic role in the blastic transformation of chronic myeloid leukemia.
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PMID:EVI1 expression associated with a 3q26 anomaly in a leukemia cell line derived from the blast crisis of chronic myeloid leukemia. 780 6

In order to investigate expression of SCL (stem cell leukemia) gene in bone marrow stromal cells (BMSC) and bone marrow cells from patients with leukemia and normal individuals, bone marrow mononuclear cells from AML (18 cases), CML (17 cases), ALL (7 cases) and normal individuals (33 cases) were cultured long-term in vitro. Nonadherent cells (hematopoietic cells) and amplified adherent cells (BMSC) were collected respectively. RT-PCR-ELISA assay was then performed to detect expression of SCL gene. The expression ratio of SCL gene were analyzed and its expression level was normalized by beta(2)M gene acting as an internal reference for the purpose of semi-quantitative analysis. The results indicated that the expression ratio of SCL gene was lower in BMSC from AML (27.8%) and CML (11.8%) than that in normal controls (69.7%, P < 0.05), while was higher in the nonadherent cells from CML (64.3%) than that in its corresponding BMSC (P < 0.05). Semi-quantitative analysis showed that SCL gene expression level in nonadherent cells from AML was higher than that in its corresponding BMSC (P < 0.05). In conclusion, the low-level expression state of SCL gene in BMSC from patients with AML and CML may be involved in the abnormal regulation of hematopoiesis in myelocytic leukemia.
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PMID:[Expression of SCL gene in bone marrow stromal cells from patients with leukemia]. 1498 66

To develop murine models of leukemogenesis, a series of transgenic mice expressing BCR-ABL in different hematopoietic cell subsets was generated. Here we describe targeted expression of P210 BCR-ABL in stem and progenitor cells of murine bone marrow using the tet-off system. The transactivator protein tTA was placed under the control of the murine stem cell leukemia (SCL) gene 3' enhancer. Induction of BCR-ABL resulted in neutrophilia and leukocytosis, and the mice became moribund within 29 to 122 days. Autopsy of sick mice demonstrated splenomegaly, myeloid bone marrow hyperplasia, and extramedullary myeloid cell infiltration of multiple organs. BCR-ABL mRNA and protein were detectable in the affected organs. Fluorescence-activated cell sorter (FACS) analysis demonstrated a significant increase in mature and immature myeloid cells in bone marrow and spleen, together with increased bilineal B220+/Mac-1+ cells in the bone marrow. tTA mRNA was expressed in FACS-sorted hematopoietic stem cells expanded 26-fold after BCR-ABL induction. Thirty-one percent of the animals demonstrated a biphasic phenotype, consisting of neutrophilia and subsequent B-cell lymphoblastic disease, reminiscent of blast crisis. In summary, this mouse model recapitulates many characteristics of human chronic myeloid leukemia (CML) and may help elucidate basic leukemogenic mechanisms in CML stem cells during disease initiation and progression.
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PMID:Inducible chronic phase of myeloid leukemia with expansion of hematopoietic stem cells in a transgenic model of BCR-ABL leukemogenesis. 1533 42

Hematological malignancies are phenotypically organized into lymphoid and myeloid disorders, although such a distinction might not be precise from the standpoint of lineage clonality. In turn, myeloid malignancies are broadly categorized into either acute myeloid leukemia (AML) or chronic myeloid disorder (CMD), depending on the presence or absence, respectively, of AML-defining cytomorphologic and cytogenetic features. The CMD are traditionally classified by their morphologic appearances into discrete clinicopathologic entities based primarily on subjective technologies. It has now become evident that most CMD represent clonal stem cell processes where the primary oncogenic event has been characterized in certain instances; Bcr/Abl in chronic myeloid leukemia, FIP1L1-PDGFRA or c-kit(D816V) in systemic mastocytosis, rearrangements of PDGFRB in chronic eosinophilic leukemia, and rearrangements of FGFR1 in stem cell leukemia/lymphoma syndrome. In addition, Bcr/Abl-negative classic myeloproliferative disorders are characterized by recurrent JAK2(V617F) mutations, whereas other mutations affecting the RAS signaling pathway molecules have been associated with juvenile myelomonocytic leukemia. Such progress is paving the way for a transition from a histologic to a semi-molecular classification system that preserves conventional terminology, while incorporating new information on molecular pathogenesis.
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PMID:Classification of chronic myeloid disorders: from Dameshek towards a semi-molecular system. 1678 78


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