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)

A gene-transfer approach was used to explore the function of the BCL2 (B-cell lymphoma/leukemia 2) gene in a human T-cell line, Jurkat. Though stable introduction of a BCL2 expression plasmid into Jurkat T cells was by itself insufficient, the combined transfer of BCL2 and MYC genes markedly enhanced the tumorigenicity of these cells in athymic mice. Moreover, a BCL2 antisense expression plasmid ablated tumor formation by Jurkat cells, providing further evidence that this oncogene contributes to the regulation of the in vivo growth of these human T lymphocytes. In addition to their influence on tumor formation, BCL2 sense and antisense expression plasmids increased and decreased, respectively, the in vitro survival of Jurkat T cells in serum-free medium. These observations extend to T cells the finding of synergy of BCL2 with MYC previously reported for B cells and provide evidence that BCL2 can regulate the growth of human T cells.
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PMID:BCL2-mediated tumorigenicity of a human T-lymphoid cell line: synergy with MYC and inhibition by BCL2 antisense. 169 20

The BCL2 (B cell lymphoma/leukemia-2) proto-oncogene encodes a 26-kDa protein that has been localized to the inner mitochondrial membrane and that has been shown to enhance the survival of some types of hematopoietic cells. Here we show that NIH3T3 fibroblasts stably transfected with a BCL2 expression plasmid exhibit reduced dependence on competence-inducing growth factors (platelet-derived growth factor, PDGF; epidermal growth factor, EGF) for initiation of DNA synthesis. The importance of BCL2 for growth factor-induced proliferation of these cells was further confirmed by the useage of BCL2 antisense oligodeoxynucleotides. The mechanisms by which overexpression of p26 BCL2 contributes to fibroblast proliferation are unknown, but do not involve alterations in: (a) the production of inositol triphosphates (IP3), (b) PDGF-induced transient elevations in cytosolic Ca2+ ions, or (c) the activity of protein kinase C enzymes in these transfected cells. The results imply that changes in mitochondrial functions play an important role in the early stages of the cell cycle that render 3T3 cells competent to respond to the serum progression factors that stimulate entry into S-phase.
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PMID:Mitochondrial protein p26 BCL2 reduces growth factor requirements of NIH3T3 fibroblasts. 207 Aug 13

In vitro enzymatic amplification and direct sequencing were used to detect and characterize t(14;18) recombination junctions in peripheral blood and bone marrow mononuclear cell preparations from patients with follicular lymphoma in remission. Samples from 24/44 patients were found to be positive for translocations involving the major breakpoint region of the BCL2 gene. In samples from seven patients two distinct t(14;18) translocations were shown to be present simultaneously; in one case the second translocation involved the minor cluster region of the BCL2 gene. Biopsy tissue obtained earlier in the course of the disease was available from five of these patients and was shown to contain one of the translocations in each case, but both translocations in only one. Further remission blood and bone marrow samples from the group were also examined. This led to the detection of both translocations in separate samples obtained at different times in a total of four out of the seven cases. In two of the remaining three patients the second translocation could not be amplified from further samples, but in both cases the search led to the identification of a third translocation, again only detectable in a single sample. These findings demonstrate that JH/BCL2 translocations can occur more than once during the course of follicular lymphoma. They suggest that biclonal follicular lymphoma may be more common than has previously been recognized but also raise the possibility that the translocation arises sporadically in the normal lymphoid cells of this group of patients.
Leukemia 1991 Jul
PMID:Detection of additional JH/BCL2 translocations in follicular lymphoma. 207 40

The BCL2 (B cell lymphoma/leukemia-2) and C-HA-RAS oncogenes encode membrane-associated proteins of 26 and 21 kilodaltons, respectively. Although RAS proteins have long been known for their ability to bind and hydrolyze GTP, recent investigations suggest that BCL2 encodes a novel GTP-binding protein (S. Haldar, C. Beatty, Y. Tsujimoto, and C. M. Croce, Nature [London] 342:195-198, 1989). Cotransfection of BCL2 and HA-RAS oncogenes resulted in morphological transformation of early-passage rodent fibroblasts, rendering these cells tumorigenic in animals and enabling them to grow in semisolid medium. In contrast, cotransfection of BCL2 with oncogenes that encode nuclear proteins (E1A and C-MYC) did not produce malignant transformation, whereas HA-RAS did complement with these genes. These findings suggest that proteins encoded by oncogenes such as BCL2 and HA-RAS, although having similar subcellular locations and perhaps similar biochemical properties, can regulate distinct complementary pathways involved in cellular transformation.
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PMID:Complementation by BCL2 and C-HA-RAS oncogenes in malignant transformation of rat embryo fibroblasts. 219 51

Cellular or proto-oncogenes are normal cellular genes important in normal cell growth and development. In some instances abnormal expression of these genes is associated with altered cell growth or with malignant transformation. Abnormalities of cellular oncogenes are common in human leukemias. These arise by multiple mechanisms such as mutation, translocation, amplification, and others. Sometimes more than one abnormality is present within a single oncogene. In other instances, a leukemia cell may contain abnormalities of several different oncogenes. Some oncogene abnormalities are relatively specific for certain leukemias and occur in almost all cases; examples include ABL in chronic myelogenous leukemia or MYC in Burkitt leukemia/lymphoma. Other abnormalities are also relatively specific but occur in only some cases such as NRAS in acute myelogenous leukemia or BCL2 in B-cell acute lymphoblastic leukemia. In other leukemias, such as most cases of acute lymphoblastic leukemia and chronic lymphocytic leukemia, oncogene abnormalities are uncommon. The precise role of oncogenes in the pathogenesis of human leukemia is unknown. Retrovirus transduced versions of some of the oncogenes modified in human leukemias cause leukemia in animals. Other oncogenes, modified or unmodified, transform animal and human hematopoietic cells in vitro. Some oncogene products are hematopoietic growth factors or growth factor receptors while others regulate cell proliferation or differentiation by diverse mechanisms. Disruption of the balance between these processes seems the most likely mechanism of oncogene related leukemogenesis. If the role of oncogenes in human leukemias can be defined, innovative diagnostic and therapeutic strategies may be forthcoming.
Leukemia 1990 Feb
PMID:Oncogenes and leukemia. 240 17

We have analyzed the oncogene rearrangements involving BCL2 and MYC in the leukemia cells of a patient with an aggressive prolymphocytic leukemia that had an abnormal karyotype including a t(14;18) translocation and a chromosome 17q+. Molecular analysis showed that BCL2 was rearranged in the major breakpoint cluster region and had joined into the immunoglobulin heavy chain gene as in follicular lymphoma. Cloning and sequence analysis of the rearranged MYC gene revealed that MYC was truncated at the Pvu II site at the end of the first exon of MYC and had joined into the regulatory elements of a gene that we called BCL3 (B-cell leukemia/lymphoma 3). The BCL3 locus was mapped to chromosome 17 band q22. We found BCL3 transcribed as a message of 1.7 kilobases in many hematopoietic cell lines representing all hematopoietic lineages. In the patient's leukemia cells, the truncated MYC gene was highly expressed under the influence of BCL3 regulatory elements, leading to an aggressive B-cell leukemia that presumably had been derived from an indolent lymphoma carrying a rearranged BCL2 gene.
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PMID:Activation of MYC in a masked t(8;17) translocation results in an aggressive B-cell leukemia. 268 63

The BCL2 (B cell lymphoma/leukemia -2) and C-MYC oncogenes become activated by chromosomal translocations involving the immunoglobulin heavy chain locus in human follicular lymphomas and Burkitt lymphomas, respectively. Though much is known about the biological actions of C-MYC, little information is available concerning the functions of BCL2, particularly in human B cells. Using a gene transfer approach we contrasted the effects of deregulated BCL2 and C-MYC expression in a human EBV-immortalized B cell line GM607B. Both BCL2 and C-MYC enhanced the ability of GM607B cells to grow in reduced serum and in limiting dilution cultures. These findings provide direct evidence that BCL2 can alter the growth characteristics of human B lymphocytes, thus strengthening arguments for its role in the pathogenesis of human lymphomas.
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PMID:Deregulated BCL2 expression enhances growth of a human B cell line. 278 59

We have analyzed the molecular genetics of the breakpoints involved in the t(8;14) and t(14;18) translocations of an acute pre-B-cell leukemia from a patient with a history of follicular lymphoma. In this patient's leukemic cells, the breakpoint of the t(14;18) translocation occurred in the major breakpoint-cluster region of the BCL2 gene and became linked to the JH4 joining-region gene segment of the immunoglobulin heavy-chain locus on the 14q+ chromosome as previously observed in follicular lymphoma. An N region and heptamer and nonamer signal sequences indicated that this translocation occurred as a mistake in VH-DH-JH joining (where VH and DH are the variable and diversity segments). In the t(8;14) translocation, the breakpoint was located immediately 5' of the first exon of the MYC protooncogene, which was juxtaposed with the C gamma 2 constant gene segment of the second 14q+ chromosome. The finding of repeated sequences typical of switch regions suggested that this translocation occurred during heavy-chain isotype switching, resulting in progression to pre-B-cell leukemia with both the t(8;14) and the t(14;18) translocations. The terminal deoxynucleotidyltransferase-positive phenotype of the patient's leukemic cells further suggests that the pre-B-cell leukemia was derived from a pre-B cell carrying a t(14;18) translocation in the original follicular lymphoma. The polymerase chain reaction method was then used to identify cancer cells in the bone marrow of the patient.
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PMID:Evolution of B-cell malignancy: pre-B-cell leukemia resulting from MYC activation in a B-cell neoplasm with a rearranged BCL2 gene. 318 43

Many genes are involved in cell cycle control, DNA repair and induction of cell death. Alterations in these genes have been responsible for the development of cancer as well as for resistance to cancer therapy. Recently, an emerging family of bcl2-like genes has been identified that plays a role in the regulation of cell death. Its members are highly conserved in several domains which have been shown to be important for homodimerization or heterodimerization. The ratio between BAX/BCL2 heterodimers and BAX/BAX homodimers appears to be pivotal in deciding the life of death of a cell. We recently detected mutations in evolutionary highly conserved domains of the bax gene in cell lines derived from hematologic malignancies. Similar artificially generated mutations in other bcl2-like family members bcl2, bclxl, or ced9 have been shown to alter their function. This suggests a role for bax mutations in the multi-step pathogenesis of hematological malignancies.
Leukemia 1995 Nov
PMID:Bax mutations in cell lines derived from hematological malignancies. 747 70

About half of the patients with follicular lymphoma will develop an aggressive B cell lymphoma with morphological changes in growth pattern and cellular morphology. Changes of the immunophenotype, especially of the expression of immunoglobulin (Ig) have been documented less frequently. Multiple tumor samples of two patients with follicular lymphoma who developed tumor progression, were studied by Southern blot analysis for rearrangements of the Ig genes and the oncogenes BCL2 and MYC. In both patients, the general pattern of Ig gene rearrangements, especially of the Ig light-chain genes, and the structure of the t(14;18) breakpoint as assessed by the polymerase chain reaction (PRC) and fine restriction mapping, remained unaltered with time. However, both within the functional Ig heavy-chain allele and around the t(14;18) breakpoint, extensive secondary alterations took place. This indicates clonal evolution rather than the appearance of an independent lymphoma. In the first case with progression from follicular lymphoma to Burkitt's lymphoma 3 years after diagnosis, alterations were especially present 3' of the t(14;18) breakpoint. In the second patient with a change from follicular to diffuse centroblastic lymphoma 4 years after diagnosis, subsequent class switches from IgM to IgG and to defective IgH expression were accompanied by deletion of C mu sequences and a rearrangement of the MYC gene, respectively. Additionally, in both patients alterations in individual restriction sites occurred, which most likely were due to somatic mutations within both the functional IgH and translocated allele. Our data indicate that complex alterations of both the functional and non-functional IgH allele may accompany tumor progression and may erroneously suggest the appearance of independent clones by Southern blot analysis. It remains to be established whether these alterations are causative events or the consequence of genetic instability and clonal evolution.
Leukemia 1995 Oct
PMID:Histological conversion of follicular lymphoma with structural alterations of t(14;18) and immunoglobin genes. 756 20

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