Loss of the Y‐chromosome (LOY) is described as both a normal age‐related event and a marker of a neoplastic clone in hematologic diseases. To assess the significance of LOY in myelodysplastic syndromes (MDS), we determined the percentage of LOY in clonal CD34+ peripheral blood cells in comparison to normal CD3+ T‐cells of 27 MDS patients using fluorescence in situ hybridization (FISH) analysis. Results were compared with the percentage of LOY in CD34+ and CD3+ cells of 32 elderly men without hematologic diseases and in 25 young blood donors. While LOY could not be detected in CD3+ cells of young men, it was observed in CD3+ cells of elderly men without hematologic diseases (2.5% LOY) as well as in CD3+ cells of elderly MDS patients (5.8% LOY). The percentage of CD34+ cells affected by LOY was significantly higher in MDS patients compared to elderly men without hematologic diseases (43.3% vs. 13.2%, P = 0.005), indicating that LOY has an age‐related basis but is also associated with MDS. Furthermore, we aimed to define a threshold between age‐ and disease‐associated LOY in MDS. Statistical analysis revealed that a value of 21.5% LOY in CD34+ peripheral blood cells provided the best threshold to discriminate between these two conditions in MDS. We conclude that LOY is clonal in a substantial number of MDS based on an age‐related predisposition. © 2015 Wiley Periodicals, Inc.

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ETV /Pea3 family transcription factor‐encoding genes are overexpressed in CIC ‐mutant oligodendrogliomas

Padul, Vijay; Epari, Sridhar; Moiyadi, Aliasgar; Shetty, Prakash; Shirsat, Neelam Vishwanath

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22283pmid: 26357005

Oligodendrogliomas with combined loss of chromosome arms 1p and 19q are known to be particularly sensitive to chemotherapy, and the CIC gene located on 19q is known to be mutated in over 50% of the 1p/19q codeleted oligodendrogliomas. However, the role of CIC in the oligodendroglioma pathogenesis is not known. Exome sequencing of 11 oligodendroglial tumors identified 9 tumors with combined loss of 1p and 19q. Somatic mutations were found in the CIC and FUBP1 genes. Recurrent somatic mutations were also identified in the Notch signaling pathway genes NOTCH1 and MAML3, the chromatin modifying gene ARID1A and in KRAS. Comparison of the transcriptome profiles of CIC‐mutant and CIC‐wild type oligodendrogliomas from the study cohort as well as 65 1p/19q codeleted oligodendrogliomas from the TCGA cohort identified genes encoding the ETV transcription factor family to be significantly upregulated in the CIC‐mutant tumors. Upregulation of a number of negative regulators of the receptor tyrosine kinase signaling pathway like Sprouty and SPRED family members in the CIC‐mutant oligodendrogliomas is likely due to the constitutive activation of the pathway resulting from inactive CIC protein. Higher expression of the oncogenic ETV transcription factors in the CIC‐mutant oligodendrogliomas may make these tumors more aggressive than the CIC‐wild type tumors. © 2015 Wiley Periodicals, Inc.

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Copy number profiling by array comparative genomic hybridization identifies frequently occurring BRCA 2‐like male breast cancer

Biesma, Hedde D.; Schouten, Philip C.; Lacle, Miangela M.; Sanders, Joyce; Brugman, Wim; Kerkhoven, Ron; Mandjes, Ingrid; van der Groep, Petra; van Diest, Paul J.; Linn, Sabine C.

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22284pmid: 26355282

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Tumor suppressor WWOX moderates the mitochondrial respiratory complex

Choo, Amanda; O'Keefe, Louise V.; Lee, Cheng Shoou; Gregory, Stephen L.; Shaukat, Zeeshan; Colella, Alexander; Lee, Kristie; Denton, Donna; Richards, Robert I.

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22286pmid: 26390919

Fragile site FRA16D exhibits DNA instability in cancer, resulting in diminished levels of protein from the WWOX gene that spans it. WWOX suppresses tumor growth by an undefined mechanism. WWOX participates in pathways involving aerobic metabolism and reactive oxygen species. WWOX comprises two WW domains as well as a short‐chain dehydrogenase/reductase enzyme. Herein is described an in vivo genetic analysis in Drosophila melanogaster to identify functional interactions between WWOX and metabolic pathways. Altered WWOX levels modulate variable cellular outgrowths caused by genetic deficiencies of components of the mitochondrial respiratory complexes. This modulation requires the enzyme active site of WWOX, and the defective respiratory complex‐induced cellular outgrowths are mediated by reactive oxygen species, dependent upon the Akt pathway and sensitive to levels of autophagy and hypoxia‐inducible factor. WWOX is known to contribute to homeostasis by regulating the balance between oxidative phosphorylation and glycolysis. Reduction of WWOX levels results in diminished ability to respond to metabolic perturbation of normal cell growth. Thus, the ability of WWOX to facilitate escape from mitochondrial damage‐induced glycolysis (Warburg effect) is, therefore, a plausible mechanism for its tumor suppressor activity. © 2015 Wiley Periodicals, Inc.

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Fusion of PDGFRB to MPRIP, CPSF6 , and GOLGB1 in three patients with eosinophilia‐associated myeloproliferative neoplasms

Naumann, Nicole; Schwaab, Juliana; Metzgeroth, Georgia; Jawhar, Mohamad; Haferlach, Claudia; Göhring, Gudrun; Schlegelberger, Brigitte; Dietz, Christian T.; Schnittger, Susanne; Lotfi, Sina; Gärtner, Michael; Dang, Tu‐Anh; Hofmann, Wolf‐Karsten; Cross, Nicholas C. P.;

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Comparative genomic hybridization on microarray (a‐ CGH ) in olfactory neuroblastoma: Analysis of ten cases and review of the literature

Valli, Roberto; De Bernardi, Francesca; Frattini, Annalisa; Volpi, Luca; Bignami, Maurizio; Facchetti, Fabio; Pasquali, Francesco; Castelnuovo, Paolo; Maserati, Emanuela

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22288pmid: 26355525

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Methyltransferase expression and tumor suppressor gene methylation in sporadic and familial colorectal cancer

Joensuu, Emmi I.; Nieminen, Taina T.; Lotsari, Johanna E.; Pavicic, Walter; Abdel‐Rahman, Wael M.; Peltomäki, Päivi

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22289pmid: 26305882

Molecular mechanisms underlying coordinated hypermethylation of multiple CpG islands in cancer remain unclear and studies of methyltransferase enzymes have arrived at conflicting results. We focused on DNMT1 and DNMT3B, DNA methyltransferases responsible for (de novo) methylation, and EZH2, histone (H3K27) methyltransferase, and examined their roles in tumor suppressor gene (TSG) methylation patterns we have previously established in sporadic and familial cancers. Our investigation comprised 165 tumors, stratified by tissue of origin (117 colorectal and 48 endometrial carcinomas) and sporadic vs. familial disease (57 sporadic vs. 60 familial, mainly Lynch syndrome, colorectal carcinomas). By immunohistochemical evaluation, EZH2 protein expression was associated with a TSG methylator phenotype. DNMT1, DNMT3B, and EZH2 were expressed at significantly higher levels in tumor vs. normal tissues. DNMT1 and EZH2 expression were positively correlated and higher in microsatellite‐unstable vs. microsatellite‐stable tumors, whether sporadic or hereditary. Ki‐67 expression mirrored the same pattern. Promoter methylation of the methyltransferase genes themselves was addressed as a possible cause behind their altered expression. While DNMT1 or EZH2 did not show differential methylation between normal and tumor tissues, DNMT3B analysis corroborated the regulatory role of a distal promoter region. Our study shows that methyltransferase expression in cancer depends on the tissue of origin, microsatellite‐instability status, cellular proliferation, and—in the case of DNMT3B—promoter methylation of the respective gene. Translation of methyltransferase expression into DNA methylation appears complex as suggested by the fact that except for EZH2, no clear association between methyltransferase protein expression and TSG methylation was observed. © 2015 Wiley Periodicals, Inc.

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Transcriptional dysregulation of the deleted in colorectal carcinoma gene in multiple myeloma and monoclonal gammopathy of undetermined significance

Nagoshi, Hisao; Taki, Tomohiko; Chinen, Yoshiaki; Tatekawa, Shotaro; Tsukamoto, Taku; Maegawa, Saori; Yamamoto‐Sugitani, Mio; Tsutsumi, Yasuhiko; Kobayashi, Tsutomu; Matsumoto, Yosuke; Horiike, Shigeo; Okuno, Yutaka; Fujiwara, Shiho; Hata, Hiroyuki;

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Coamplification of M yc / P vt1 and homozygous deletion of N lrp1 locus are frequent genetics changes in mouse osteosarcoma

Rao, Pulivarthi H.; Zhao, Shuying; Zhao, Yi‐Jue; Yu, Alexander; Rainusso, Nino; Trucco, Matteo; Allen‐Rhoades, Wendy; Satterfield, Laura; Fuja, Daniel; Borra, Vishnupriya J.; Man, Tsz‐Kwong; Donehower, Lawrence A.; Yustein, Jason T.

2015 Genes, Chromosomes and Cancer

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Frequency of del(12p) is commonly underestimated in myelodysplastic syndromes: Results from a G erman diagnostic study in comparison with an international control group

Braulke, Friederike; Müller‐Thomas, Catharina; Götze, Katharina; Platzbecker, Uwe; Germing, Ulrich; Hofmann, Wolf‐Karsten; Giagounidis, Aristoteles A. N.; Lübbert, Michael; Greenberg, Peter L.; Bennett, John M.; Solé, Francesc; Slovak, Marilyn L.; Ohyashiki, Kazuma;

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Genomic aberrations can be used to subtype breast cancer. In this study, we investigated DNA copy number (CN) profiles of 69 cases of male breast cancer (MBC) by array comparative genomic hybridization (aCGH) to detect recurrent gains and losses in comparison with female breast cancers (FBC). Further, we classified these profiles as BRCA1‐like, BRCA2‐like or non‐BRCA‐like profiles using previous classifiers derived from FBC, and correlated these profiles with pathological characteristics. We observed large CN gains on chromosome arms 1q, 5p, 8q, 10p, 16p, 17q, and chromosomes 20 and X. Large losses were seen on chromosomes/chromosome arms 1p, 6p, 8p, 9, 11q, 13, 14q, 16q, 17p, and 22. The pattern of gains and losses in estrogen receptor positive (ER+) MBC was largely similar to ER+ FBC, except for gains on chromosome X in MBC, which were uncommon in FBC. Out of 69 MBC patients, 15 patients (22%) had a BRCA2‐like profile, of which 2 (3%) were also BRCA1‐like. One patient (1%) was only BRCA1‐like; the remaining 53 (77%) patients were classified as non‐BRCA‐like. BRCA2‐like cases were more often p53 accumulated than non‐BRCA‐like cases (P = 0.014). In conclusion, the pattern of gains and losses in ER+ MBC was largely similar to that of its ER+ FBC counterpart, except for gains on chromosome X in MBC, which are uncommon in FBC. A significant proportion of MBC has a BRCA2‐like aCGH profile, pointing to a potentially hereditary nature, and indicating that they could benefit from a drug regimen targeting BRCA defects as in FBC. © 2015 Wiley Periodicals, Inc.

Reiter, Andreas;

Fabarius, Alice

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22287pmid: 26355392

In eosinophilia‐associated myeloproliferative neoplasms (MPN‐eo), constitutive activation of protein tyrosine kinases (TK) as consequence of translocations, inversions, or insertions and creation of TK fusion genes is recurrently observed. The most commonly involved TK and their potential TK inhibitors include PDGFRA at 4q12 or PDGFRB at 5q33 (imatinib), FGFR1 at 8p11 (ponatinib), and JAK2 at 9p24 (ruxolitinib). We here report the identification of three new PDGFRB fusion genes in three male MPN‐eo patients: MPRIP‐PDGFRB in a case with t(5;17)(q33;p11), CPSF6‐PDGFRB in a case with t(5;12)(q33;q15), and GOLGB1‐PDGFRB in a case with t(3;5)(q13;q33). The fusion proteins identified by 5′‐rapid amplification of cDNA ends polymerase chain reaction (PCR) or DNA‐based long distance inverse PCR are predicted to contain the TK domain of PDGFRB. The partner genes contain domains like coiled‐coil structures, which are likely to cause dimerization and activation of the TK. In all patients, imatinib induced rapid and durable complete remissions. © 2015 Wiley Periodicals, Inc.

Olfactory neuroblastoma is a rare tumor arising from the basal layer of the olfactory epithelium in the superior recesses of the nasal cavity. The rarity of this tumor, and the difficulties in culturing tumor cells has limited the generation of conventional cytogenetic data, whereas consistent results have been obtained by recent molecular methods. We report the results of an array‐based comparative genomic hybridization analysis (a‐CGH) obtained on 11 samples from 10 subjects: 8 primary and 3 relapsed tumors. In one patient, both the primary and relapsed tumors were available. Our results on chromosome imbalances highlight the highly heterogeneous presentation: six of eleven samples showed multiple numerical changes and very few structural ones, while four samples showed an opposite pattern; one sample out of eleven showed no imbalances. We did not reach firm evidence of any recurrent specific imbalances either at level of entire chromosomes or chromosome segments. A review of the literature indicates a number of recurrent gains, and losses, mostly not confirmed by our results. Gain of chromosome 19 was the only correspondence with literature data concerning an entire chromosome, and most segmental gains and losses found in our cohort of patients were different from those indicated in the literature: the only similarities concerned the gain of 20q13 and the loss of segments of chromosomes 15 and 22. © 2015 Wiley Periodicals, Inc.

Kuroda, Junya;

Taniwaki, Masafumi

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22290pmid: 26390996

The deleted in colorectal carcinoma (DCC) gene at 18q21 encodes a netrin‐1 receptor, a tumor suppressor that prevents cell growth. While allele loss or decreased expression of DCC has been associated with the progression of solid tumors and hematologic malignancies, including leukemias and malignant lymphomas, its involvement has not been evaluated in multiple myeloma (MM), a plasma cell malignancy characterized by complex and heterogenous molecular abnormalities. We here show that 10 of 11 human myeloma‐derived cell lines (HMCLs) expressed non‐translated aberrant DCC transcriptional variants, in which exon 2 fuses with intron 1 instead of exon 1 (mt.DCC). Among them, two co‐expressed wild type transcripts (wt.DCC), while eight co‐expressed the splicing variant (sv.DCC) lacking exon 1. The remaining HMCL expressed only sv.DCC. In addition, analyses revealed that there were two types of mt.DCC that differed in their fusion of intron 1 with exon 2. In patient‐derived samples from 30 MM and 8 monoclonal gammopathy of undetermined significance (MGUS) patients, wt.DCC was expressed in 53% of MM, but not in MGUS, while 23% of MM and 75% of MGUS expressed only sv.DCC. Considering that 25% of MGUS, 57% of MM, and 91% HMCLs expressed mt.DCC, our results suggest that the acquisition of mt.DCC might be a secondary genetic change in plasma cell dyscrasia. © 2015 Wiley Periodicals, Inc.

doi: 10.1002/gcc.22291pmid: 26355645

Osteosarcomas (OSs) are characterized by high levels of genomic instability (GI). To gain insights into the GI and its contribution toward understanding the genetic basis of OS, we characterized 19 primary and 13 metastatic mouse tumors in a genetically engineered novel mouse model of OS by a combination of genomic techniques. Through the bone‐specific deletion of the wild‐type Trp53 locus or activation of a metastatic‐promoting missense R172Hp53 allele, C57BL/6 mice developed either localized or metastatic OS. Subsequent tumors were isolated and primary cultures created from primary bone and/or distal metastatic lesions, for example, lung and liver. These tumors exhibited high levels of GI with complex chromosomal rearrangements, amplifications, and deletions comparable to human OS. The combined genomic approaches identified frequent amplification of chromosome 15D1 and loss of 11B4 by CGH and/or SKY. Both 15D1 and 11B4 have homology with frequently altered chromosomal bands 8q24 and 17p13 in human OS, respectively. Subsequent array CGH, FISH, and qRT‐PCR analysis identified coamplification and overexpression of Myc/Pvt1 transcripts from the 15D1 amplicon and loss and decreased expression of the Nlrp1b from 11B4. The Nlrp1 gene is the key mediator of apoptosis and interacts strongly with caspase 2. © 2015 Wiley Periodicals, Inc.

Le Beau, Michelle M.;

Tüchler, Heinz;

Pfeilstöcker, Michael;

Hildebrandt, Barbara;

2015 Genes, Chromosomes and Cancer

doi: 10.1002/gcc.22292pmid: 26355708

In myelodysplastic syndromes (MDS), deletion of the short arm of chromosome 12 (del(12p)) is usually a small abnormality, rarely detected as a single aberration by chromosome banding analysis (CBA) of bone marrow metaphases. Del(12p) has been described in 0.6 to 5% of MDS patients at initial diagnosis and is associated with a good to intermediate prognosis as a sole anomaly according to current scoring systems. Here, we present the results of a systematic del(12p) testing in a German prospective diagnostic study (clinicaltrials.gov: NCT01355913) on 367 MDS patients in whom CD34+ peripheral blood cells were analysed for the presence of del(12p) by sequential fluorescence in situ hybridization (FISH) analyses. A cohort of 2,902 previously published MDS patients diagnosed by CBA served as control. We demonstrate that, using a sensitive FISH technique, 12p deletion occurs significantly more frequently in MDS than previously described (7.6% by CD34+ PB‐FISH vs. 1.6% by CBA, P < 0.001) and is often associated with other aberrations (93% by CD34+ PB‐FISH vs. 60% by CBA). Additionally, the detection rate can be increased by repeated analyses in a patient over time which is important for the patient´s prognosis to distinguish a sole anomaly from double or complex aberrations. To our knowledge, this is the first study to screen for 12p deletions with a suitable probe for ETV6/TEL in 12p13. Our data suggest that the supplement of a probe for the detection of a 12p deletion to common FISH probe panels helps to avoid missing a del(12p), especially as part of more complex aberrations. © 2015 Wiley Periodicals, Inc.