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 ectopic expression of LMO1 or LMO2 in T cell acute leukaemias resulting from chromosomal translocations t(11;14)(p15;qll) or t(11;14)(p13;q11) respectively in a causal factor in tumorigenesis. LMO1 has been found as a heterodimer with a 46 Kd protein in a T cell line derived from a childhood T-acute leukaemia. This 46 Kd protein is the LIM-binding protein LDB1/NLI. The latter is a phosphoprotein and binds to LMO1 in its phosphorylated state and essentially all the LMO1 and LDB1 protein in the T cell line is part of the complex. Therefore, the LMO1-LDB1 interaction is likely to be involved in tumorigenesis after LMO1 is ectopically expressed following chromosomal translocation in T cells prior to development of acute leukaemias.
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PMID:The LMO1 and LDB1 proteins interact in human T cell acute leukaemia with the chromosomal translocation t(11;14)(p15;q11). 987 35

We have established a panel of nine immortal cell lines from T cell malignancies which arose in mice transgenic for the SCL and LMO1 genes. Cells from the primary malignancies initially grew very slowly in vitro, loosely attached to a stromal layer, before gaining the ability to proliferate independently. Upon gaining the ability to proliferate in the absence of a stromal layer, these cell lines grew rapidly, doubling every 14-23 h, to a very high density, approaching 10(7) cells/ml. Whereas the tumors which arise in SCL/LMO1 double transgenic mice are typically diploid or pseudodiploid, the cell lines were all grossly aneuploid, suggesting the possibility that additional genetic events were selected for in vitro. Given that SCL and LMO1 gene activation are both commonly seen in human patients with T cell acute lymphoblastic leukemia, these cell lines may be a useful in vitro model for the human disease.
Leukemia 2001 Jan
PMID:Development and characterization of T cell leukemia cell lines established from SCL/LMO1 double transgenic mice. 1124 82

Human T cell leukemias can arise from oncogenes activated by specific chromosomal translocations involving the T cell receptor genes. Here we show that five different T cell oncogenes (HOX11, TAL1, LYL1, LMO1, and LMO2) are often aberrantly expressed in the absence of chromosomal abnormalities. Using oligonucleotide microarrays, we identified several gene expression signatures that were indicative of leukemic arrest at specific stages of normal thymocyte development: LYL1+ signature (pro-T), HOX11+ (early cortical thymocyte), and TAL1+ (late cortical thymocyte). Hierarchical clustering analysis of gene expression signatures grouped samples according to their shared oncogenic pathways and identified HOX11L2 activation as a novel event in T cell leukemogenesis. These findings have clinical importance, since HOX11 activation is significantly associated with a favorable prognosis, while expression of TAL1, LYL1, or, surprisingly, HOX11L2 confers a much worse response to treatment. Our results illustrate the power of gene expression profiles to elucidate transformation pathways relevant to human leukemia.
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PMID:Gene expression signatures define novel oncogenic pathways in T cell acute lymphoblastic leukemia. 1208 66

T-cell acute lymphoblastic leukemia (T-ALL) presents a difficult medical problem. T-ALL's clinical features and the biological properties of the leukemia cells are not predictive of prognosis, and thus have not been useful for risk-specific adjustments in therapeutic intensity. Microarray gene expression analyses of T-cell leukemic lymphoblasts have not only improved our understanding of the biological heterogeneity of this disease but have revealed clinically relevant molecular subtypes. Five different multistep molecular pathways have been identified that lead to T-ALL, involving activation of different T-ALL oncogenes: (1) HOX11, (2) HOX11L2, (3) TAL1 plus LMO1/2, (4) LYL1 plus LMO2, and (5) MLL-ENL. Gene expression studies indicate activation of a subset of these genes-HOX11, TAL1, LYL1, LMO1, and LMO2-in a much larger fraction of T-ALL cases than those harboring activating chromosomal translocations. In many such cases, the abnormal expression of one or more of these oncogenes is biallelic, implicating upstream regulatory mechanisms. Among these molecular subtypes, overexpression of the HOX11 orphan homeobox gene occurs in approximately 5% to 10% of childhood and 30% of adult T-ALL cases. Patients with HOX11-positive lymphoblasts have an excellent prognosis when treated with modern combination chemotherapy, while cases at high risk of early failure are included largely in the TAL1- and LYL1-positive groups. Supervised learning approaches applied to microarray data have identified a group of genes whose expression is able to distinguish high-risk cases. Further analyses of gene expression signatures of T-ALL lymphoblasts are especially needed for patients treated on modern combination chemotherapy trials to clearly distinguish the 10% to 15% of patients who fail induction or relapse in the first year of treatment. These high-risk patients would be ideal candidates for more intensive therapies in first remission, such as myeloablative regimens with stem cell rescue. Based on the rapid pace of research in T-ALL, made possible in large part through microarray technology, deep analysis of molecular pathways should lead to new and much more specific targeted therapies.
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PMID:Gene expression profiling in T-cell acute lymphoblastic leukemia. 1458 78

The LIM-only family of proteins comprises four members; two of these (LMO1 and LMO2) are involved in human T-cell leukemia via chromosomal translocations, and LMO2 is a master regulator of hematopoiesis. We have carried out gene targeting of the other members of the LIM-only family, viz., genes Lmo1, Lmo3 and Lmo4, to investigate their role in mouse development. None of these genes has an obligatory role in lymphopoiesis. In addition, while null mutations of Lmo1 or Lmo3 have no discernible phenotype, null mutation of Lmo4 alone causes perinatal lethality due to a severe neural tube defect which occurs in the form of anencephaly or exencephaly. Since the Lmo1 and Lmo3 gene sequences are highly related and have partly overlapping expression domains, we assessed the effect of compound Lmo1/Lmo3 null mutations. Although no anatomical defects were apparent in compound null pups, these animals also die within 24 h of birth, suggesting that a compensation between the related Lmo1 and 3 proteins can occur during embryogenesis to negate the individual loss of these genes. Our results complete the gene targeting of the LIM-only family in mice and suggest that all four members of this family are important in regulators of distinct developmental pathways.
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PMID:Null mutation of the Lmo4 gene or a combined null mutation of the Lmo1/Lmo3 genes causes perinatal lethality, and Lmo4 controls neural tube development in mice. 1496 85

The activation of oncogenic transcription factors defines distinct molecular subsets of T-cell acute lymphoblastic leukaemia and has prognostic relevance in children. We investigated the prognostic effect of the expression levels of eight oncogenic transcription factors--TLX1 (HOX11), TLX3 (HOX11L2), TAL1, TAL2, LYL1, OLIG2 (BHLHB1), LMO1, and LMO2--in 52 adults with T-cell acute lymphoblastic leukaemia. The leukaemia-specific survival rate for the 16 TLX1-positive patients was 88% (90% CI 73-100%), compared with 56% (42-70%) for all other cases (p=0.019). Only the TLX1 oncogene expression subgroup showed difference in leukaemia-specific survival. Our results suggest that overexpression of TLX1 confers a good outlook for adults with T-cell acute lymphoblastic leukaemia. Furthermore, our findings lead to questions about whether stem-cell transplantation in first remission is necessary for effective treatment of patients in the low-risk subgroup of patients with TLX1 oncogene expression.
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PMID:Prognostic importance of TLX1 (HOX11) oncogene expression in adults with T-cell acute lymphoblastic leukaemia. 1497 18

Exogenous expression of the transcription factor Scl (Tal1) in WEHI-3B D+ myelomonocytic leukemia cells interferes with their capacity to respond to all-trans retinoic acid (ATRA) induced differentiation; combination of ATRA with LiCl, however, circumvents the inhibition of differentiation produced by Scl. To gain information on the possible involvement of this transcription factor in the non-responsiveness of acute myelocytic leukemia (AML) patients to ATRA, we compared the endogenous expression levels of Scl and its transcription complex partners [i.e., Rbtn1 (LMO1), Rbtn2 (LMO2), Ldb1, and GATA family proteins] in leukemic blast cells from patients with AML and acute promyelocytic leukemia (APL), and determined the effects of lithium chloride alone or in combination with ATRA on the capacity of blast cells to differentiate during short-term ex vivo culture. Levels of Scl, Rbtn2, GATA1, and Ldb1 expression were comparable in AML and APL blasts, while the levels of expression of Rbtn1, GATA2, and GATA3 were absent or markedly lower in APL cells. Differentiation markers (cell surface myeloid antigens CD11b, CD15, CD14, and CD33) were also analyzed in blast cells. ATRA produced changes in at least one surface antigen differentiation marker in 89% of patient blasts, while LiCl caused such changes in 72% of the leukemic cells of patients. The combination of LiCl and ATRA induced the differentiation of leukemic blasts from 94% of patients. Although the expression of the transcription factors did not act as individual predictors of responsiveness or non-responsiveness to the inducers of differentiation, ATRA or ATRA plus LiCl, the addition of LiCl to ATRA increased the differentiation response over that of ATRA alone in a number of leukemic samples. These findings suggest that the combination of LiCl and ATRA may produce some clinical benefit in the treatment of the myeloid leukemias.
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PMID:Analysis of the relationship between Scl transcription factor complex protein expression patterns and the effects of LiCl on ATRA-induced differentiation in blast cells from patients with acute myeloid leukemia. 1538 Mar 50

OLIG2 (originally designated BHLHB1) encodes a transcription factor that contains the basic helix-loop-helix motif. Although expression of OLIG2 is normally restricted to neural tissues, overexpression of OLIG2 has been shown in patients with precursor T-cell lymphoblastic lymphoma/leukemia (pre-T LBL). In the current study, we found that overexpression of OLIG2 was not only found in oligodendroglioma samples and normal neural tissue but also in a wide spectrum of malignant cell lines including leukemia, non-small cell lung carcinoma, melanoma, and breast cancer cell lines. To investigate whether enforced expression of OLIG2 is oncogenic, we generated transgenic mice that overexpressed OLIG2 in the thymus. Ectopic OLIG2 expression in the thymus was only weakly oncogenic as only 2 of 85 mice developed pre-T LBL. However, almost 60% of transgenic mice that overexpressed both OLIG2 and LMO1 developed pre-T LBL with large thymic tumor masses. Gene expression profiling of thymic tumors that developed in OLIG2/LMO1 mice revealed up-regulation of Notch1 as well as Deltex1 (Dtx1) and pre T-cell antigen receptor alpha (Ptcra), two genes that are considered to be downstream of Notch1. Of note, we found mutations in the Notch1 heterodimerization or proline-, glutamic acid-, serine-, and threonine-rich domain in three of six primary thymic tumors. In addition, growth of leukemic cell lines established from OLIG2/LMO1 transgenic mice was suppressed by a gamma-secretase inhibitor, suggesting that Notch1 up-regulation is important for the proliferation of OLIG2-LMO1 leukemic cells.
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PMID:OLIG2 (BHLHB1), a bHLH transcription factor, contributes to leukemogenesis in concert with LMO1. 1610 65

We recently showed that a subset of human T acute lymphoblastic leukemia (T-ALL) cell lines expresses low basal levels of p50, a nuclear factor-kappaB (NF-kappaB)/Rel family member, resulting in their capacity to activate the atypical p65:cRel complex rather than the classic p50:p65 dimer. Here, we show that the transcription factor TAL1 (also known as SCL) binds to the promoter of the NFKB1 gene that encodes p50 and represses its transcription to set up this unique response in T-ALL cells. When TAL1 expression is reduced in CEM T leukemia cells, basal NFKB1 expression is increased, and the levels of p65:cRel complex and transcription of its target gene, such as intercellular adhesion molecule-1 (ICAM-1), are reduced in response to etoposide treatment. Moreover, a significant negative correlation between NFKB1 and TAL1 or LMO1 was found in primary human TAL1/LMO1 double-positive T-ALL samples previously described by Ferrando et al. Thus, TAL1 modulates NFKB1 expression and an NF-kappaB-dependent transcriptional program in a subset of human T-cell leukemia cells.
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PMID:NFKB1 is a direct target of the TAL1 oncoprotein in human T leukemia cells. 1677 71

We compared the gene expression pattern of thymic tumors from precursor T-cell lymphoblastic lymphoma/leukemia (pre-T LBL) that arose in transgenic mice that overexpressed SCL, LMO1 or NUP98-HOXD13 (NHD13) with that of thymocytes from normal littermates. Only two genes, Ccl8 and Mrpl38, were consistently more than fourfold overexpressed in pre-T LBL from all three genotypes analyzed, and a single gene, Prss16 was consistently underexpressed. However, we identified a number of genes, such as Cfl1, Tcra, Tcrb, Pbx3, Eif4a, Eif4b and Cox8b that were over or under-expressed in pre-T LBL that arose in specific transgenic lines. Similar to the situation seen with human pre-T LBL, the SCL/LMO1 leukemias displayed an expression profile consistent with mature, late cortical thymocytes, whereas the NHD13 leukemias displayed an expression profile more consistent with immature thymocytes. We evaluated two of the most differentially regulated genes as potential therapeutic targets. Cfl1 was specifically overexpressed in SCL-LMO1 tumors; inactivation of Cfl1 using okadaic acid resulted in suppression of leukemic cell growth. Overexpression of Ccl8 was a consistent finding in all three transgenic lines, and an antagonist for the Ccl8 receptor-induced death of leukemic cell lines, suggesting a novel therapeutic approach.
Leukemia 2007 Jun
PMID:Gene expression profiling of precursor T-cell lymphoblastic leukemia/lymphoma identifies oncogenic pathways that are potential therapeutic targets. 1742 29


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