UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ataxia telangiectasia (A-T) is an inherited, recessive, cancer-prone disease with associated immunodeficiency and chromosome abnormalities involving TCR loci. The latter phenomena implicate errors of the enzyme(s) responsible for assembly of antigen receptor genes (recombinase) in disease pathogenesis. Here we report the location of a human recombination activating gene (RAG2), in addition to RAG1, on chromosome 11, band p13, thereby formally demonstrating linkage of these genes in humans and showing that they are not linked to the known locus responsible for the A-T syndrome.
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PMID:Human RAG2, like RAG1, is on chromosome 11 band p13 and therefore not linked to ataxia telangiectasia complementation groups. 128 30

The polymerase chain reaction (PCR) was used on DNA obtained from various normal lymphoid tissues to amplify chimeric TCR gene rearrangements involving J segments of the beta gene and V segments of the gamma or delta genes. As found previously for the transrearrangements between the gamma and delta genes, transrearrangements involving the beta gene were more abundant in DNA of the thymus than in DNA of the spleen, lymph node, bone marrow, or PBL. In addition, transrearrangements between Ig H chain V region segment and J segment of TCR delta chain were also found in DNA of normal thymus. Sequence analysis of the trans-rearrangement PCR products revealed structures closely resembling normal intragenic rearrangements, with N insertions and often D segments at the junctions between segments. The sequences analyzed suggest that transrearrangements arise through the action of normal lymphocyte recombinase, involve trans recognition of heptamer/nonamer recombination signals, and follow the 12 + 23 spacer rule. To test whether transrearrangements result from chromosomal rearrangements with breakpoints at the sites of Ag receptor genes, PCR was performed on the DNA of PBL from patients with ataxia telangiectasia, a disorder in which circulating lymphocytes often have numerous karyotypic abnormalities with breakpoints at the cytogenetic positions of these genes. Comparison of the results of PCR on this DNA and that of normal tissues demonstrated a substantially increased frequency for most types of transrearrangements investigated. These results support the interpretation that transrearrangement among TCR genes may occur by chromosomal rearrangement.
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PMID:Transrearrangements between antigen receptor genes in normal human lymphoid tissues and in ataxia telangiectasia. 165 8

In this paper, using polymerase chain reaction (PCR), we demonstrated the occurrence of hybrid genes formed by interlocus recombination between T cell receptor gamma (TCR-gamma) variable (V) regions and TCR-beta joining (J) regions in the peripheral blood lymphocytes (PBL) from normal individuals and patients with ataxia-telangiectasia (AT). Sequence analysis of the PCR-derived hybrid genes confirmed that site-specific V gamma-J beta recombination had occurred and showed that 10 of 23 genomic hybrid genes maintained a correct open reading frame. By dilution analysis, the frequency of these hybrid genes was 8 +/- 1/10(5) cells in normal PBL and 587 +/- 195/10(5) cells in AT PBL. These frequencies and the approximately 70-fold difference between the normal and AT samples are consistent with previous cytogenetic data examining the occurrence of an inversion of chromosome 7 in normal and AT PBL. We also demonstrated expression of these hybrid genes by PCR analysis of first-strand cDNA prepared from both normal and AT PBL. Sequence analysis of the PCR-amplified transcripts showed that, in contrast to the genomic hybrid genes, 19 of 22 expressed genes maintained a correct open reading frame at the V-J junction and correctly spliced the hybrid V-J exon to a TCR-beta constant region, thus allowing translation into a potentially functional hybrid TCR protein. Another type of hybrid TCR transcript was found in a which a rearranged TCR-gamma V-J exon was correctly spliced to a TCR-beta constant region. This form of hybrid gene may be formed by trans-splicing. These hybrid TCR genes may serve to increase the repertoire of the immune response. In addition, studies of their mechanism of formation and its misregulation in AT may provide insight into the nature of the chromosomal instability syndrome associated with AT. The mechanism underlying hybrid gene formation may be analogous to the mechanism underlying rearrangements between putative growth-affecting genes and the antigen receptor loci, which are associated with AT lymphocyte clones and lymphoid malignancies.
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PMID:Hybrid T cell receptor genes formed by interlocus recombination in normal and ataxia-telangiectasis lymphocytes. 169 65

The TCR/CD3 complex plays a central role in antigen recognition and activation of mature T cells, and, therefore, abnormalities in the expression of the complex should induce unresponsiveness of T cells to antigen stimulus. Using flow cytometry, we detected and enumerated variant cells with loss or alteration of the surface TCR/CD3 expression among human mature CD4+ T cells. The presence of variant CD4+ T cells was demonstrated by isolating and cloning them from peripheral blood, and their abnormalities can be accounted for by alterations in TCR expression such as defects of protein expression and partial protein deletion. The variant frequency in peripheral blood increased with aging in normal donors and was highly elevated in patients with ataxia telangiectasia, an autosomal recessive inherited disease with defective DNA repair and variable T cell immunodeficiency. These findings suggest that such alterations in TCR expression are induced by somatic mutagenesis of TCR genes and can be important factors related to age-dependent and genetic disease-associated T cell dysfunction.
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PMID:Spontaneous loss and alteration of antigen receptor expression in mature CD4+ T cells. 197 77

Patients with ataxia telangiectasia (A-T) develop specific chromosome translocations, which may confer a proliferative advantage, resulting in the appearance of large clones in the peripheral blood lymphocytes. These lymphocytes are not malignant. Using in situ hybridisation techniques we have investigated a consistent 14q11 translocation breakpoint observed in a t(X;14)(q28;q11) translocation clone from each of two different patients and a t(14;14)(q11;q32) clone from a third patient. In all cases the chromosome translocation involved breakage within the alpha chain locus of the T cell receptor (TCR alpha), between the variable and constant regions, at 14q11. Chromosome rearrangement involving breakage within TCR alpha can therefore precede the development of malignancy. Further chromosomal rearrangement may be required in these patients, for progression to the leukaemic state.
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PMID:Breakage of the T cell receptor alpha chain locus in non malignant clones from patients with ataxia telangiectasia. 297 Apr 26

The TCL1 oncogene on human chromosome 14q32.1 is involved in chromosome translocations [t(14;14)(q11;q32.1) and t(7;14)(q35;q32.1)] and inversions [inv14(q11;q32.1)] with TCR alpha/beta loci in T-cell leukemias, such as T-prolymphocytic (T-PLL). It is also involved in T-acute and -chronic leukemias arising in cases of ataxia-telangiectasia (AT), an immunodeficiency syndrome. Similar chromosomal rearrangements occur also in the clonally expanded T cells in AT patients before the appearance of the overt leukemia. We have analyzed the expression of TCL1 mRNA and protein in peripheral blood lymphocytes (PBLs) from four AT cases and from healthy controls. We found that the TCL1 gene was overexpressed in the PBLs of an AT patient with a large clonal T-cell population exhibiting the t(14;14) translocation but not in the lymphocytes of the other cases. Fluorescence in situ hybridization of the TCL1 genomic locus to lymphocyte metaphases from the AT patient with the T-cell clonal expansion showed that the breakpoint of the t(14;14) translocation lies within the TCL1 locus and is accompanied by an inverted duplication of the distal part of chromosome 14. These data indicate that TCL1 is activated in preleukemic clonal cells as a consequence of chromosome translocation involving sequences from the TCR locus at 14q11. Deregulation of TCL1 is the first event in the initiation of malignancy in these types of leukemias and represents a potential tool for clinical evaluation.
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PMID:TCL1 oncogene activation in preleukemic T cells from a case of ataxia-telangiectasia. 766 82

We have demonstrated earlier that the crosslinkage of the CD3/TCR complex with the CD2 antigen results in the proliferation of normal human T cells. The effect of this synergism was perceptible at the level of induction of the IL-2 gene, a process critical for T cell growth. To further understand the molecular and nuclear basis for this synergism, we have explored the induction of DNA-binding proteins in highly purified normal human T cells signaled via the CD3 and/or CD2 proteins. The effect of transmembrane signaling of T cells with ionomycin, and/or sn-1,2 dioctanoyl glycerol, was also determined. The emergence of nuclear binding proteins was investigated using interleukin-2 sequence specific oligonucleotide probes in the electrophoretic mobility shift assay. Our studies demonstrate for the first time that CD3 antigen-derived signals and CD2 antigen-derived signals are synergistic in inducing the emergence of transcription factors that bind to the NF-AT1, AP-1, and NF-kB sites located in the promoter/enhancer region of the IL-2 gene. Moreover, cyclosporine, at concentrations readily accomplished in clinical practice, was found to inhibit the emergence of these DNA-binding proteins in normal human T cells signaled via cell surface proteins implicated in antigen-dependent T cell activation and in T cells stimulated by mobilization of cellular calcium and activation of protein kinase C.
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PMID:Synergism between the CD3 antigen- and CD2 antigen-derived signals. Exploration at the level of induction of DNA-binding proteins and characterization of the inhibitory activity of cyclosporine. 809 81

A t(X;14)(q28;q11) translocation was present for many years in T cells in two patients with ataxia telangiectasia (A-T), who subsequently developed T-prolymphocytic leukemia. We describe here the relationship between the translocation breakpoints in these patients with respect to two recently described genes, c6.1A and c6.1B, on Xq28 which are transcribed in opposite directions from the same CpG island. In our first patient, the Xq28 breakpoint disrupts the c6.1A gene which is consequently transcribed as a fusion mRNA with the TCR C alpha chain gene. In the second case, the Xq28 breakpoint lies within the adjacent gene c6.1B, and c6.1A is not transcribed. We show that the c6.1B gene is transcribed in both of our patients. c6.1B may be important in the initial clonal proliferation of T lymphocytes which commonly precedes transformation to T-PLL in ataxia telangiectasia patients. The same gene may also be involved in the development of T-PLL in the non-A-T population.
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PMID:A gene on chromosome Xq28 associated with T-cell prolymphocytic leukemia in two patients with ataxia telangiectasia. 815 52

Chromosomal translocation t(X;14)(q28;q11) has been observed in patients with pro-lymphocytic T-cell leukaemia (T-PLL). In two cases of T-PLL, one of which was associated with Ataxia telangiectasia (AT), the chromosomal break occurred in two different introns of a gene c6.1A, located at the Xq28 locus. Fusion transcripts, consisting of 5' sequences of c6.1A and the TCR alpha constant (C) region, were expressed at high levels in the leukaemic cells from both patients, but in only one case did this fusion generate an in-frame c6.1A-C alpha mRNA. However, the breaks within c6.1A seem to affect another gene, c6.1B, which is transcribed from the same CpG rich island as c6.1A but in the opposite transcriptional orientation. The c6.1B gene is not damaged by the translocation but is transcribed in both T-PLL cases. Furthermore, c6.1B may lack protein coding capacity and thus this translocation might result in a novel mechanism in tumorigenesis. In any event, this is the first cloned gene which is implicated in pathogenesis of chronic/pro-lymphocytic leukaemia of the T-cell lineage.
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PMID:The chromosomal translocation t(X;14)(q28;q11) in T-cell pro-lymphocytic leukaemia breaks within one gene and activates another. 824 30

Ataxia telangiectasia is a complex genetic disease which includes a high risk to develop lymphoid malignancies. In approximately 10% of the patients, clonal translocations are observed in large T lymphocytes populations, with generally no consequences for the patient. Cytological and biological studies of these cell populations have shown striking similarities with T-cell prolymphocytic leukemia. Clonal chromosomal aberrations are constituted by the translocation of one TCR gene to either the 14q32.1 band or the Xq28 band. Whereas no gene candidate is yet identified on the 14q32.1 region, we have recently identified a new gene on Xq28 that may play a role in leukemogenesis.
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PMID:Ataxia telangiectasia: a model for T-cell leukemogenesis. 851 Oct 36

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