This study was designed to identify highly recurrent genetic alterations typical of Sézary syndrome (Sz), an aggressive cutaneous T-cell lymphoma/leukemia, possibly revealing pathogenetic mechanisms and novel therapeutic targets. High-resolution array-based comparative genomic hybridization was done on malignant T cells from 20 patients. Expression levels of selected biologically relevant genes residing within loci with frequent copy number alteration were measured using quantitative PCR. Combined binary ratio labeling-fluorescence in situ hybridization karyotyping was done on malignant cells from five patients. Minimal common regions with copy number alteration occurring in at least 35% of patients harbored 15 bona fide oncogenes and 3 tumor suppressor genes. Based on the function of the identified oncogenes and tumor suppressor genes, at least three molecular mechanisms are relevant in the pathogenesis of Sz. First, gain of cMYC and loss of cMYC antagonists (MXI1 and MNT) were observed in 75% and 40% to 55% of patients, respectively, which were frequently associated with deregulated gene expression. The presence of cMYC/ MAX protein heterodimers in Sézary cells was confirmed using a proximity ligation assay. Second, a region containing TP53 and genome maintenance genes (RPA1/HIC1) was lost in the majority of patients. Third, the interleukin 2 (IL-2) pathway was affected by gain of STAT3/STAT5 and IL-2 (receptor) genes in 75% and 30%, respectively, and loss of TCF8 and DUSP5 in at least 45% of patients. In sum, the Sz genome is characterized by gross chromosomal instability with highly recurrent gains and losses. Prominent among deregulated genes are those encoding cMYC, cMYCregulating proteins, mediators of MYC-induced apoptosis, and IL-2 signaling pathway components. [Cancer Res 2008; 68(8):2689-98]
Purpose: Ewing sarcoma is an aggressive sarcoma and is the second most common bone sarcoma in childhood. Disease-specific t(11;22) (f85-90%), t(21;22) (f5-10%), or rarer variant translocations with the involvement of chromosome 22 (f5%) are present. At the gene level, the EWSR1 gene fuses with FLI1, ERG, or other ETS transcription factor family members. Thus far, no Ewing sarcoma has been identified with a fusion to transcription factors other than ETS. Experimental Design: Using molecular tools such as multicolor fluorescence in situ hybridization and array comparative genomic hybridization, a ring chromosome containing chromosomes 20 and 22 was identified in four Ewing sarcoma cases. The breakpoint was mapped with (fiber-) fluorescence in situ hybridization and reverse transcription-PCR followed by sequencing of the fusion partners. Results: Molecular karyotyping showed the translocation and amplification of regions of chromosomes 20q13 and 22q12. Cloning of the breakpoint showed an in-frame fusion between the EWSR1 and NFATc2 genes, resulting in loss of the NH 2 -terminal, calcineurin-dependent control region and an intact active domain of NFATc2 controlled by the transactivation domains of EWSR1. Conclusion: A new translocation involving EWSRI and NFATc2 was cloned. NFATc2 is a transcription factor that is not a member of the ETS family and functions inT-cell differentiation and immune response. Direct involvement of NFATc2 has not yet been observed in oncogenesis. We show that due to the shared sequence recognition of NFATc2 and the ETS family, shared transcriptional control is possible using activating protein complex 1.
Purpose: Angiomatoid fibrous histiocytoma (AFH) is a low-grade mesenchymal neoplasm which usually occurs in children and adolescents. Either FUS-ATF1 or EWSR1-ATF1 have been detected in the few cases published, pointing to the interchangeable role of FUS and EWSR1 in this entity. EWSR1-ATF1 also represents the most frequent genetic alteration in clear cell sarcoma, suggesting the existence of a molecular homology between these two histotypes.We investigated the presence of EWSR1-CREB1, recently found in gastrointestinal clear cell sarcoma, and FUS-CREB1, as well as the already reported FUS-ATF1 and EWSR1-ATF1 in a series of AFH. Experimental Design: Fourteen cases were analyzed by fluorescence in situ hybridization (FISH) on paraffin-embedded tissue sections, using a commercial EWSR1 probe and customdesigned probes for FUS, ATF1, and CREB1. In two cases, four-color FISH was also done. Reverse transcription-PCR for the four hypothetical fusion genes was done in one case, for which frozen material was available. Results:Thirteen cases showed rearrangements of both EWSR1 and CREB1, whereas one case showed the rearrangement of both EWSR1 and ATF1. Four-color FISH confirmed the results in two selected cases. Reverse transcription-PCR showed EWSR1-CREB1 transcript in the case analyzed. Conclusion: We identified the presence of either EWSR1-CREB1 or EWSR1-ATF1 in all the cases, strengthening the concept of chromosomal promiscuity between AFH and clear cell sarcoma. Either the occurrence of a second unknown tumor-specific molecular event or, perhaps more likely, divergent differentiation programs of the putatively distinct precursor cells of AFH and clear cell sarcoma might be invoked in order to explain the two different phenotypes.Angiomatoid fibrous histiocytoma (AFH) represents a lowgrade mesenchymal neoplasm of uncertain differentiation (1), which usually occurs in the extremities of children and young adults. Morphologically, it is a multinodular proliferation of bland spindle to ovoid eosinophilic cells, sometimes lining pseudoangiomatoid spaces and surrounded by a thick fibrous pseudocapsule, often featuring a prominent lymphoplasmacytic infiltrate. Immunohistochemically, the most relevant finding is represented by the expression of desmin in f40% of cases, suggesting myogenic differentiation (2, 3). The recurrence rate is between 2% and 11%, and the metastatic rate is <1%. In the context of an uncommon tumor type with a very low rate of metastasis, it is unsurprising that no histologic or immunophenotypic features have thus far been identified to predict patients' outcome.Until recently, only five cases of AFH studied by cytogenetics (4, 5) and/or molecular genetics (4 -7) have been published in detail. Two of them were characterized by the expression of an FUS-ATF1 fusion gene (4, 6), resulting from a t(12;16) (q13;p11) (ref. 4), whereas in the remaining three cases, a EWSR1-ATF1 fusion gene was detected (5, 7), resulting from a t(12;22)(q13;q12) (ref. 5). EWSR1 and FUS are members of the TET family, ...
The initiating somatic genetic events in chordoma development have not yet been identified. Most cytogenetically investigated chordomas have displayed near-diploid or moderately hypodiploid karyotypes, with several numerical and structural rearrangements. However, no consistent structural chromosome aberration has been reported. This is the first array-based study characterising DNA copy number changes in chordoma. Array comparative genomic hybridisation (aCGH) identified copy number alterations in all samples and imbalances affecting 5 or more out of the 21 investigated tumours were seen on all chromosomes. In general, deletions were more common than gains and no high-level amplification was found, supporting previous findings of primarily losses of large chromosomal regions as an important mechanism in chordoma development. Although small imbalances were commonly found, the vast majority of these were detected in single cases; no small deletion affecting all tumours could be discerned. However, the CDKN2A and CDKN2B loci in 9p21 were homo-or heterozygously lost in 70% of the tumours, a finding corroborated by fluorescence in situ hybridisation, suggesting that inactivation of these genes constitute an important step in chordoma development.
Expansion of a Glutamine (Gln) repeat above a specific critical size in certain proteins gives rise to aggregation-prone proteins that cause neurodegenerative disorders, such as Huntington's disease. However, proteins with long hydrophilic polyglutamine repeats are more frequently found in nature than proteins with long homogeneous repeats of other amino acids, such as hydrophobic (Ala)(n) and (Leu)(n). To explore this finding, the effects of expression in mammalian cells of polyglutamine and polyleucine encoded by mixed DNA repeats were compared. It was found that polyleucine is significantly more toxic than polyglutamine. In addition, we show that polyleucine stretches display a high propensity for aggregation utilizing two complementary biochemical assays and that polyleucine stretches can also be detected by the monoclonal antibody 1C2, which specifically recognizes expanded pathogenic and aggregation-prone glutamine repeats. Together, these results suggest that polyglutamine stretches are in fact relatively well tolerated and that nature may select more strongly against DNA stretches that encode long hydrophobic homopolymeric amino acid stretches, such as polyleucine -- possibly owing to their strong propensity for aggregation. In keeping with this notion, an increasing number of diseases are found to be associated with expansion of stretches of hydrophobic amino acids, including oculopharyngeal muscular dystrophy (OPMD), which is associated with expansion of a hydrophobic polyalanine stretch.
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