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)

All cellular ets proteins contain a region of high amino acid identity to those found in the last two exons of the ets-1 gene (C domain). We have identified and characterized a new member of the human ETS gene family, ERGB. The ERGB gene shows extensive amino acid identity to the human ERG and the mouse Fli-1 genes. The ERGB gene is found to be transcriptionally active in a variety of human cell lines and tissues, in contrast to the more restrictive expression pattern of the ERG gene. The ERGB gene encodes for a 3.2-kilobase mRNA containing an open reading frame of 451 amino acids. The ERGB gene, like human ETS1, is located on chromosome 11 and is transposed to chromosome 4 as a result of the translocation t(4;11) associated with leukemia. Pulse-field gel analysis suggests that ETS1 and ERGB are more than 200 kilobases apart. Similar to the other members of the ets family (ets 1, ets 2), this new member is also able to trans-activate transcription of a reporter gene linked to the ETS-binding sequences derived from either the GATA-1 promoter or an optimal Ets-binding site.
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PMID:The ERGB/Fli-1 gene: isolation and characterization of a new member of the family of human ETS transcription factors. 144

The human ETS1 proto-oncogene proteins have been isolated from the T-cell leukemia line, CEM, by immunoaffinity chromatography and their identity confirmed by NH2-terminal amino acid sequencing. Incubation of CEM cells with N alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK) indicates that ETS proteins can be modified in their cellular context and that pretreatment of the cells with N-ethylmaleimide (NEM) protects ETS1 proteins from TLCK modification. These data show that ETS1 proteins can exist in at least two different states, -SH-available and -SH-protected. Renatured human ETS1 has DNA sequence-specific binding to the PEA3 (CAGGAAGT) motif. The ETS1.PEA3 complex can be observed by electrophoretic mobility shift assays (EMSA). Purified ETS1 retards a band which is exactly the same size as a complex that is retarded from nuclear extracts prepared from CEM cells. Reduced ETS1 is required to form the ETS1.PEA3 complex, however; modification of the ETS1 -SH groups by either NEM or by TLCk does not inhibit formation of the complex. The ETS1.PEA3 complex formed with TLCK-modified ETS1 has a slower mobility than the complex formed with unmodified ETS1. Zone sedimentation analysis of purified ETS1 indicates that it is the monomer of ETS1 which binds to the PEA3 oligonucleotide.
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PMID:Human ETS1 oncoprotein. Purification, isoforms, -SH modification, and DNA sequence-specific binding. 151 30

We previously demonstrated that the breakpoint of t(11;14)(q23;q32) in the RC-K8 B cell lymphoma cell line lies between CD3 and THY1/ETS1 on chromosome 11q23, and we cloned this region and named it the rck locus. Pulsed-field gel electrophoresis showed that the rck probe B (distal to the breakpoint) and the porphobilinogen deaminase (PBGD) probe detect the same germ line band and also the same rearranged band when DNA from RC-K8 cells was digested with NotI enzyme. Furthermore, Southern blot analysis with somatic cell hybrids showed that the PBGD gene moved to the 14q+chromosome, which confirmed PBGD to be more distal to the centromere than the rck locus. These data allowed us to construct the following order of genes: 11 cen-q23-CD3-rck-PBGD-THY1/ETS1. In this study, three infantile leukemia cell lines with t(11;19)(q23;p13) translocation were also analyzed by pulsed-field gel electrophoresis. CD3D probe detected the rearranged bands in DNA from two of them after digestion with NotI and SacII enzymes, demonstrating that the breakpoints of both cell lines were estimated to be within 360 kilobases of CD3D.
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PMID:Rearrangements on chromosome 11q23 in hematopoietic tumor-associated t(11;14) and t(11;19) translocations. 174 46

The t(4;11)(q21;q23) has been associated with acute lymphocytic leukemia (ALL) especially in infants. The t(4;11) breakpoint on chromosome 11 is cytogenetically indistinguishable from breakpoints for other leukemia-associated translocations affecting 11q23. The molecular basis of the t(4;11) is unknown although a number of genes have been mapped to 11q23. The CD3D, G, and E genes have been positioned proximal to the 11q23 breakpoint of the 4;11 translocation while the THY1 and ETS1 genes have been mapped distal to this breakpoint. We report evidence that CD3G is within 200 kb of the 4;11 breakpoint as observed by pulsed field gel analysis. A rearrangement of the CD3G gene has been observed in a cell line derived from a patient with the t(4;11) translocation and in a hybrid cell line containing the derivative 11q chromosome derived from this cell line, using the restriction enzymes SacII and ClaI. Similar rearrangements using SacII were observed in 2 further patients with ALL and the t(4;11) translocation. No rearrangements in the same DNA were observed using ETS1, THY1, and D11S29 and a range of rare cutter restriction enzymes. CD3G thus provides a tool for the cloning and analysis of the 4;11 translocation, and poses a question of its possible involvement at long range with this translocation.
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PMID:CD3G is within 200 kb of the leukemic t(4;11) translocation breakpoint. 182 60

The human ETS2 gene is a member of the ets gene family (ETS1, ETS2, ERG, ELK1 and ELK2) with amino acid similarity to the v-ets oncogene of the avian leukemia virus, E26. The ETS2 gene is composed of 10 exons, nine of which contribute to the open reading frame encoding 469 amino acids. The ETS2 gene directs the synthesis of three RNA transcripts, which differ from each other by the length of their 3' ends. This heterogeneity of 3' end is the major reason for the size differences between the transcripts, presumably reflecting utilization of three different polyadenylation signals/sites. The coding regions of all of the ETS2 RNA species are the same length and, thus, should contain the same open reading frame.
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PMID:Molecular organization and differential polyadenylation sites of the human ETS2 gene. 225 Sep 10

Translocations involving chromosome 11, band q23, are frequent recurring abnormalities in human acute lymphoblastic and acute myeloid leukemia. We used 19 biotin-labeled probes derived from genes and anonymous cosmids for hybridization to metaphase chromosomes from leukemia cells that contained four translocations involving band 11q23: t(4;11)(q21;q23), t(6;11)(q27;q23), t(9;11)(p22;q23), and t(11;19)(q23;p13). The location of the cosmid probes relative to the breakpoint in 11q23 was the same in all translocations. Of the cosmid clones containing known genes, CD3D was proximal and PBGD, THY1, SRPR, and ETS1 were distal to the breakpoint on 11q23. Hybridization of genomic DNA from a yeast clone containing yeast artificial chromosomes (YACs), that carry 320 kilobases (kb) of human DNA including CD3D and CD3G genes, showed that the YACs were split in all four translocations. These results indicate that the breakpoint at 11q23 in each of these translocations occurs within the 320 kb encompassed by these YACs; whether the breakpoint within the YACs is precisely the same in the different translocations is presently unknown.
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PMID:Mapping chromosome band 11q23 in human acute leukemia with biotinylated probes: identification of 11q23 translocation breakpoints with a yeast artificial chromosome. 225 Dec 77

An interferon-inducible cytokine, IP-10, containing homology to a family of proteins having chemotactic (platelet factor 4, beta-thromboglobulin) and mitogenic (connective tissue-activating peptide III) activities has been mapped to chromosome 4 at band q21, a locus associated with an acute monocytic/B-lymphocyte lineage leukemia that exhibits the nonrandom translocation t(4;11)(q21;q23). In situ hybridization of t(4;11)(q21;q23)-carrying leukemic cells revealed that the IP-10 gene is proximal to the breakpoint of this translocation. No DNA rearrangement was evident when the IP-10 gene was hybridized to genomic DNA isolated from two patients' leukemic cells that contain t(4;11)(q21;q23). However, restriction fragment length polymorphism in the 5' region of the IP-10 gene was detected. The ETS1 protooncogene is located at 11q23 and is known to translocate to chromosome 4 in t(4;11) (q21;q23) and into the interferon gene cluster in (9;11) (p22;q23). Both translocations are associated with acute monocytic leukemia. These results suggest a model in which juxtaposition of genetic loci regulated by antiproliferative signals, such as interferon, next to an oncogene, like ETS1, could effectively short circuit homeostatic control circuits and contribute to the neoplastic state.
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PMID:Interferon-inducible gene maps to a chromosomal band associated with a (4;11) translocation in acute leukemia cells. 243 86

Field inversion gel electrophoresis of DNA from a leukemic clone characterized by the t(11;19)(q23;p13) allowed us to exclude any genomic rearrangement within more than 900 kb of DNA encompassing ETS1 on chromosome 11. Although ETS1 was moved to the derivative chromosome 19 as a result of the t(11;19), we conclude that this oncogene is not close to the chromosome 11 breakpoint and is unlikely to be involved in this leukaemia.
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PMID:The oncogene ETS1 is distant from the chromosome 11 breakpoint in leukaemic cells with the t(11;19)(q23;p13). 267 14

Cellular ets sequences homologous to v-ets of the avian leukemia virus E26 are highly conserved. In mammals the ets sequences are dispersed on two separate chromosomal loci, called ets-1 and ets-2. To determine the structure of these two genes and identify the open reading frames that code for the putative proteins, we have sequenced human ets-1 cDNAs and ets-2 cDNA clones obtained from both human and mouse. The human ETS1 gene is capable of encoding a protein of 441 amino acids. This protein is greater than 95% identical to the chicken c-ets-1 gene product. Thus, the human ETS1 gene is homologous to the chicken c-ets-1 gene, the protooncogene that the E26 virus transduced. Human and mouse ets-2 cDNA clones are closely related and contain open reading frames capable of encoding proteins of 469 and 468 residues, respectively. Direct comparison of these data with previously published findings indicates that ets is a family of genes whose members share distinct domains.
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PMID:Mammalian ets-1 and ets-2 genes encode highly conserved proteins. 284 45

Chromosome translocations and deletions may alter cellular proto-oncogenes and result in cellular changes that are important in the pathogenesis of malignancy. The region 11q23 is frequently involved in human malignancy. Utilizing a leukemic cell line with a reciprocal translocation involving 11q23 and somatic cell hybrids derived from this cell line, we analyzed five genes assigned to 11q23: NCAM, CD3D, CD3E, THY1, and ETS1. Our data showed no evidence of direct involvement of these genes in this leukemia but enabled a partial genetic map of this important region of the human genome to be constructed: 11cen--NCAM--CD3([G, D], E)--parallel--(ETS1, THY1)--11qter.
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PMID:Mapping studies and expression of genes located on human chromosome 11, band q23. 324 86

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