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Novel Translocation (novel + translocation)

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Medical Sciences100%

Selected Abstracts

EWSR1-CREB1 is the predominant gene fusion in angiomatoid fibrous histiocytoma

GENES, CHROMOSOMES AND CANCER, Issue 12 2007
Cristina R. Antonescu
The molecular hallmark of angiomatoid fibrous histiocytoma (AFH) is not well defined, with only six cases with specific gene fusions reported to date, consisting of either FUS-ATF1 or EWSR1-ATF1. To address this, we investigated the presence of FUS-ATF1, EWSR1-ATF1, and the highly related EWSR1-CREB1 fusion in a group of nine AFHs. All cases were subjected to RT-PCR for EWSR1-ATF1 and EWSR1-CREB1. FISH for EWSR1 and FUS rearrangements was performed in most cases. Transcriptional profiling was performed in three tumors and their gene expression was compared to five clear cell sarcomas expressing either the EWSR1-ATF1 or EWSR1-CREB1 fusion. By RT-PCR, eight out of nine tumors showed the presence of the EWSR1-CREB1 fusion, while one had an EWSR1-ATF1 transcript. FISH showed evidence of EWSR1 rearrangement in seven out of eight cases. Karyotypic analysis performed in one tumor showed a t(2;22)(q33;q12). High transcript levels were noted for TFE3 in AFH tumors, while overexpression of genes involved in melanogenesis, such as MITF, GP100, and MET was noted in somatic clear cell sarcomas. We report for the first time the presence of EWSR1-CREB1 in AFH, which now appears to be the most frequent gene fusion in this tumor. EWSR1-CREB1 is a novel translocation recently described in clear cell sarcoma of the GI tract. EWSR1-ATF1, identified in some AFH cases, is the most common genetic abnormality in soft tissue clear cell sarcoma. Thus, identical fusions involving ATF1 and CREB1 are found in two distinct sarcomas, which may be able to transform two different types of mesenchymal precursor cells, unlike most other sarcoma gene fusions. © 2007 Wiley-Liss, Inc. [source]

Characterization of 6q abnormalities in childhood acute myeloid leukemia and identification of a novel t(6;11)(q24.1;p15.5) resulting in a NUP98,C6orf80 fusion in a case of acute megakaryoblastic leukemia

GENES, CHROMOSOMES AND CANCER, Issue 3 2005
Sabrina Tosi
Chromosome abnormalities of 6q are not frequently observed in myeloid disorders. In this article, we report the incidence of these chromosome changes in childhood myeloid leukemia as 2%,4% based on the cytogenetic database of a single institution. We applied fluorescence in situ hybridization (FISH) to characterize precisely the types of 6q abnormalities in seven patients (six with acute myeloid leukemia and one with myelodysplastic syndrome). They carried various translocations involving different breakpoints in 6q, as confirmed by FISH using a whole-chromosome-6 paint. Four cases were reported as t(6;11), although the breakpoints varied. Among these, we identified a novel translocation, t(6;11)(q24.1;p15.5), in a patient with acute megakaryoblastic leukemia. Molecular cytogenetic studies using the PAC clone RP5-1173K1 localized the genomic breakpoint on chromosome 11 to within the NUP98 gene. The breakpoint on chromosome 6 was narrowed down to a 500-kb region between BAC clones RP11-721P14 and RP11-39H10. Reverse-transcription PCR was performed using a forward primer specific for NUP98 and a reverse primer for the candidate gene in the 500-kb interval in 6q. This experiment resulted in the identification of a new fusion between NUP98 and C6orf80. Further studies will aim to fully characterize C6orf80 and will elucidate the role of this new NUP98 fusion in myeloid leukemia. © 2005 Wiley-Liss, Inc. [source]

Spectral karyotyping in patients with acute myeloid leukemia and a complex karyotype shows hidden aberrations, including recurrent overrepresentation of 21q, 11q, and 22q

GENES, CHROMOSOMES AND CANCER, Issue 2 2002
Krzysztof Mrózek
We used spectral karyotyping (SKY) to study 29 adults with acute myeloid leukemia and a complex karyotype containing one to nine abnormalities that were not fully identifiable by G-banding. SKY showed the origin of rings and unidentified material in unbalanced translocations in all cases and the origin of markers in most, allowing reinterpretation of 136 aberrations and discovery of three aberrations hidden in normal chromosomes. SKY confirmed 10 and refined the interpretation of three balanced aberrations recognized by G-banding and identified another nine balanced aberrations, including a novel translocation involving the RUNX1 gene. Eleven of 32 deletions found by G-banding were shown to be cryptic translocations or insertions, including three of four chromosome 3 deletions, two of three del(7q), and two of 12 del(5q). Of the 92 chromosomes deemed lost entirely by G-banding, 63 (68%) were shown to be involved in structural aberrations. This was especially true for ,21 (eight of eight patients), ,5 (five of six patients), ,20 (seven of nine patients), and ,18 (six of 12 patients). Unexpectedly, SKY uncovered a hidden overrepresentation of segments from at least one chromosome in 21 patients. The most frequently overrepresented was 21q, found in eight patients, including four with high-level 21q amplification. Fluorescence in situ hybridization showed that the RUNX1 gene was not the target of amplification in seven of these patients. Also frequently gained were 11q (in seven patients, including three with high-level MLL gene amplification) and 22q (in seven patients). We conclude that SKY considerably enhances the accuracy of karyotype interpretation, and that amplification of chromosomal material may play a greater role in leukemogenesis than has been recognized. © 2002 Wiley-Liss, Inc. [source]

Molecular cytogenetics characterization of a novel translocation involving chromosomes 17 and 19 in a Ph+ adult acute lymphoblastic leukaemia

BRITISH JOURNAL OF HAEMATOLOGY, Issue 2 2002
Giorgina Specchia
Summary. We report a case of positive Philadelphia chromosome adult acute lymphoblastic leukaemia with a novel unbalanced translocation t(17;19), leading to trisomy of 17q21-qter. The patient did not obtain complete haematological response and died a few months after diagnosis. The significance of the 17q21-qter trisomy, resulting from this novel translocation, and its possible role in the progression of the leukaemia is discussed. [source]