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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 17-month-old child with acute biphenotypic (pre B-ALL/myelomonocytic) leukemia is reported. Extensive cytogenetic analysis performed at various stages of the disease revealed a clonal evolution at the time of initial diagnosis with two types of abnormal clones, one with trisomy 22 and two other related clones with trisomy 22 plus partial trisomy of the long arm of chromosome 1 associated with the telomeric segment of either chromosome 20q or 21p. At the time of relapse the only abnormal clone involved trisomy 22 and partial trisomy of 1q, but this time in association with the telomeric segment of 14p. The unique feature of these translocations is discussed and the possibility of the correlation between the different chromosomal abnormalities and the expression of biphenotypic markers is raised.
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PMID:"Jumping translocation" in a 17-month-old child with mixed-lineage leukemia. 175 67

Chromosome 11 band q23 is commonly involved in nonrandom chromosomal translocations in hematopoietic malignancies, especially in infant acute leukemias. By using pulsed-field gel electrophoresis (PFGE) with restriction endonuclease digests of DNA from both a leukemia cell line (RS4;11) bearing the t(4;11)(q21;q23) and from human/hamster hybrid cells, we have been able to construct a detailed restriction map of the chromosome 11q23 region and have localized the t(4;11) chromosome 11 breakpoint to a region located approximately 200 to 230 kb telomeric to the CD3 gamma region and approximately 580 kb centromeric to the PBGD gene. PFGE analyses of DNA from clinical leukemia specimens and cell lines indicated a tight clustering of breakpoints in all eight t(4;11) acute leukemias studied. These data strongly suggest that discrete genetic loci are interrupted on both chromosomes 4 and 11 in a manner likely to be critically involved in the pathogenesis of t(4;11) acute leukemias. To our knowledge, these results represent the first evidence of breakpoint clustering in t(4;11) acute leukemias. In contrast to t(4;11), other 11q23 abnormalities studied to date have frequently shown evidence for alternative breakpoint sites in 11q23.
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PMID:Breakpoint clustering in t(4;11)(q21;q23) acute leukemia. 182 46

We have cloned 70 kb of DNA from chromosome 11p13 at the site of a recurrent translocation in T-cell leukaemia (T-ALL): t(11;14)(p13;q11). The translocation involves the TCR-delta gene on 14q11 and a new site on 11p13. Two new and 10 previously identified translocations all mapped within 25 kb on 11p13, the 11p13 T-cell translocation cluster (11p13 ttc). A search for expressed sequences surrounding the breakpoint cluster region on 11p13 identified a gene telomeric of all breakpoints which is overexpressed in three T-ALL samples with a t(11;14). The gene T-cell translocation gene (TTG-2) encodes a small cysteine-rich protein. Forty-eight per cent of the amino acids are identical with another translocation-deregulated gene, TTG-1 (T-cell translocation gene 1 or rhombotin) in 11p15. There are two copies of a cysteine-rich motif in both proteins. Two tandem copies of the same cysteine-rich motif are also present in the recently described lin-11, isl-1 and mec-3 gene products, and one motif is found in the CRIP protein. Therefore the proteins encoded by these two translocation-deregulated genes belong to this new class of cysteine-rich proteins with the 'LIM' motif, which are important in normal development.
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PMID:TTG-2, a new gene encoding a cysteine-rich protein with the LIM motif, is overexpressed in acute T-cell leukaemia with the t(11;14)(p13;q11). 192 11

The t(11;14)(q13;q32) translocation has been associated with several subtypes of human leukemia and lymphoma. It has been proposed that this translocation activates a proto-oncogene designated BCL1. In an effort to better understand the mechanism by which this translocation leads to malignancy, we have studied this translocation in two human cell lines. MO1094 and MO2058 were derived from patients with prolymphocytic variants of chronic lymphocytic leukemia. Southern blotting of the MO2058 cell line documented that the translocation linked the Jh region in the immunoglobulin heavy chain gene to the previously described BCL1 major translocation cluster (MTC). Using the polymerase chain reaction, we cloned this translocation and showed that the chromosome 11 breakpoint was within 7 bp of two other samples reported previously. Southern blotting of the MO1094 cell line suggested that the translocation in this cell line might link Jh sequences to a new region in the BCL1 locus on chromosome 11. Therefore, the MO1094 breakpoint was cloned from a genomic library. Comparison with normal cloned DNA from the BCL1 locus showed that the chromosome 11 breakpoint occurred 24 kb telomeric of the MTC. This work reinforces the concept that translocation breakpoints in the BCL1 locus are scattered over at least 63 kb.
Leukemia 1991 Sep
PMID:Cloning of the t(11;14)(q13;q32) translocation breakpoints from two human leukemia cell lines. 194 25

Numerical chromosome aberrations were detected in hematological cancers by nonradioactive in situ hybridization (ISH) procedures, using centromere specific probes for chromosomes 1, 7, 8, 9, 10, 11, 16, 17, 18, X, and Y. All 15 cases could be evaluated by ISH for these 11 probes. Our experiments show that in seven of these randomly selected leukemia bone marrow cell suspensions numerical aberrations for one or two chromosomes could be detected by this method. The results of ISH on interphase nuclei and in some cases on metaphase preparations were compared with karyotyping data. Seven cases of chromosomal aberrations observed with ISH (three for monosomy and four for trisomy) were confirmed by this classical cytogenetic technique, whereas in five instances an aberration was found only with ISH (twice for monosomy, twice for trisomy, and one disomy for the Y-probe). One case of a trisomy for chromosome 1 observed by ISH on interphase nuclei could be explained by a marker chromosome, a finding that was further substantiated by ISH on metaphase spreads. In this case double-target ISH on interphase cells with the probes for chromosomes 1 and 16 strongly suggested a translocation between these chromosomes. Also, in one case a marker chromosome could be characterized as a translocation between chromosomes 7 and 17. In this latter case the cytogenetic examinations revealed only monosomy for chromosomes 7 and 17 in addition to noncharacterized marker chromosomes. Our results indicate that the nonradioactive ISH procedure in combination with chromosome specific repetitive centromeric probes is a powerful tool for studying both numerical and structural chromosomal aberrations in interphase nuclei of leukemias. It may therefore become a valuable and routine diagnostic tool in addition to the existing karyotyping procedures.
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PMID:Interphase cytogenetics of hematological cancer: comparison of classical karyotyping and in situ hybridization using a panel of eleven chromosome specific DNA probes. 200 82

We report two occurrences of dic(9;12) in acute lymphoblastic leukemia and review previous cases. Cases of dic(9;12) share common features with cases of 9p and 12p rearrangements, but prognosis seems particularly good in cases of dic(9;12). The persistence of a specific dicentric in stable clones is remarkable and points to unusual centromeric behavior and/or marked selective advantage of the anomaly.
Leukemia 1990 Jun
PMID:Two additional cases of t dic(9:12) in acute lymphocytic leukemia (ALL): prognosis in ALL with dic(9:12). 219 3

Using (a) somatic cell hybrids retaining partial chromosome 5 and (b) clinical samples from patients with acquired deletions of the long arm of chromosome 5, combined with chromosome 5-linked DNA probes, some of which exhibited RFLPs, we have determined the order of a series of genes on chromosome 5. The order established is 5pter----MLVI-2----cen----HEXB----DHFR----Pi227- --- cp12.6----(IL5,IL4)----IL3----GMCSF---- FGFA---- (CSF1R,PDGFR)----(treC,ADRBR)----(ARH-H9,CSF1 )----qter. The suggested order and orientation for the closely linked IL3/GMCSF gene pair is cen----5' IL3 3'----5' GMCSF 3'----qter, on the basis of analysis of the GMCSF rearrangement in HL60 DNA. The map position of the GRL locus, which was consistent with both somatic cell hybrid and 5q- analyses, was telomeric to GMCSF and centromeric to CSF1R/PDGFR, near FGFA. Long-range restriction-enzyme analysis of 5q- DNAs did not detect rearrangements of 5q-linked probes except in HL60 DNA, but it did reveal putative long-range RFLPs of several loci. RFLPs for GRL, Pi227, cp12.6, IL3, and CSF1R can detect deletions in bone marrow and in leukemia cells from patients with acquired 5q deletions.
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PMID:Order of genes on human chromosome 5q with respect to 5q interstitial deletions. 229 53

We cloned the t(10;14) recurrent translocation from CD3-negative T-cell acute lymphoblastic leukemia cells. The breakpoint at 14q11 involved an intermediate rearrangement of the delta T-cell receptor locus, suggesting that the translocation arose at the time of antigen receptor assemblage. Translocation introduced chromosome segment 10q24 as proven by hybridization of a breakpoint-derived probe to flow-sorted chromosomes and metaphase chromosomes. Two t(10;14) breakpoints were clustered within a 600-base-pair region of 10q24 but no heptamer-spacer-nonamer motifs resembling T-cell receptor/immunoglobulin rearrangement signals were noted at the breakpoint. A locus distinct from terminal deoxynucleotidyltransferase was found at 10q24. Evolutionarily conserved regions surrounding the 10q24 breakpoint were examined for transcriptional activity. A region telomeric to the 10q24 breakpoint, expected to translocate to the der(14) chromosome, recognized an abundant 2.9-kilobase RNA in a t(10;14) T-cell leukemia. This locus was not active in a variety of other normal and neoplastic T cells, arguing that it was deregulated by the introduction of the T-cell receptor. This locus is a candidate for a putative protooncogene, TCL3, involved in T-cell neoplasia.
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PMID:The t(10;14)(q24;q11) of T-cell acute lymphoblastic leukemia juxtaposes the delta T-cell receptor with TCL3, a conserved and activated locus at 10q24. 232 74

Anti-H-2.33 [(B10.D2 X A)F1 anti-B10.A(5R)], which predominantly contains antibodies recognizing H-2Kb and IAb molecules, was found to be cytotoxic against DMLM 1678, a B-cell leukemia of SJL/J (H-2s) origin. The antiserum precipitated a typical class I (H-2-like) molecule from labeled tumor cell preparations as judged by molecular mass, papain susceptibility and association with beta 2-microglobulin. Sequential immunoprecipitation studies revealed that it was distinct from either H-2Ks or H-2Ds, the 2 molecules expressing the private antigens of the H-2s haplotype. Absorption analysis using congenic mice mapped the gene controlling the expression of the novel molecule telomeric to the S-region within the major histocompatibility complex.
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PMID:A novel H-2s class I molecule expressed on a B-cell leukemia from SJL/J mice. 241 49

The Hodgkin's disease (HD) derived cell line L428 and a phorbol ester-selected subline L428KSA, which have been independently passaged in tissue culture for several years, were studied for possible antigen receptor gene and immunophenotypic differences. Multiple but identical alterations of these genes were found, including: the deletion of one and rearrangement of the other immunoglobulin (Ig) heavy chain allele; the rearrangement of one kappa and one lambda light chain allele; and the rearrangement of one T cell receptor (TCR) beta allele. Restriction mapping of the Ig heavy chain locus indicated that rearrangement of the retained allele produced a JH-C gamma 4 fusion product by an isotype switch mechanism. The 14q+ chromosome [t(14q32;?)] present in both cell cultures derived either from translocation 5' (telomeric) to the rearranged JH allele or 3' (centromeric) to the deleted Ig heavy chain allele and did not involve detectable rearrangement of the c-myc, bcl 1, or bcl 2 oncogenes. No differences in the immunophenotype were found between the L428 and L428KSA cells: both expressed leukocyte activation antigens and some determinants associated with myelomonocytic cells but no lymphoid markers. It is postulated that these phenotypic characteristics derived from secondary genetic events/differentiative reprogramming which produced extinction of primary lymphoid characters, including terminal deoxynucleotidyl transferase (TdT) essential to generation of the Ig and TCR gene rearrangements, and expression of an incomplete set of myelomonocytic markers.
Leukemia 1989 Jul
PMID:Stability of multiple antigen receptor gene rearrangements and immunophenotype in Hodgkin's disease-derived cell line L428 and variant subline L428KSA. 249 37


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