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Genomic Loss (genomic + loss)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

TNFAIP3 is the target gene of chromosome band 6q23.3-q24.1 loss in ocular adnexal marginal zone B cell lymphoma

GENES, CHROMOSOMES AND CANCER, Issue 1 2008
Keiichiro Honma
The genomic aberrations in extra nodal marginal zone B cell lymphoma vary according to their anatomical origin. This polarization is a reflection of the participation of different genes in the lymphomagenesis of marginal zone B cell lymphoma. We previously demonstrated by means of genome-wide array comparative genomic hybridization (CGH) that the genomic profile of ocular adnexal marginal zone B cell lymphoma is distinct from that of pulmonary or nodal marginal zone B cell lymphoma. The novel finding was a recurrent deletion of a 2.9-Mb region at chromosome band 6q23.3-q24.1, including homozygous loss, in ocular adnexal marginal zone B cell lymphoma. For a more detailed examination of the deletions of 6q23.3-24.1, we used contig bacterial artificial chromosome (BAC) array CGH, containing 24 BAC clones covering the 2.9-Mb region, to analyze nine cases with 6q23.3-q24.1 loss. We narrowed the minimal common region down to a length of 586 kb with two genes and four expressed sequence tags (ESTs). All of these genes and ESTs were subjected to RT-PCR and real-time quantitative RT-PCR. Correlation between genomic loss and expression level was found only for TNFAIP3, demonstrating that TNFAIP3 is a target gene of 6q deletion in ocular adnexal marginal zone B cell lymphoma. TNFAIP3 is an inhibitor of NF-kB signaling so that loss of this gene may play an important role in lymphomagenesis and suggests that TNFAIP3 may act as a tumor suppressor gene in ocular adnexal marginal zone B cell lymphoma. This article contains Supplementary Material available at http://www.interscience.wiley.com/jpages/1045-2257/suppmat. © 2007 Wiley-Liss, Inc. [source]

Genomic imbalances in CML blast crisis: 8q24.12,q24.13 Segment identified as a common region of over-representation

GENES, CHROMOSOMES AND CANCER, Issue 4 2003
Susan M. Gribble
The acute phase of chronic myeloid leukemia (CML) is accompanied by secondary chromosomal changes. The additional changes have a non-random pattern; however, highly abnormal (marker) chromosomes are reported in some 20% of abnormal karyotypes. These marker chromosomes have proved to be beyond the resolution of conventional G-banding analysis. We used molecular cytogenetic techniques to determine the structure of complex chromosome markers in 10 CML-derived cell lines after our investigations of CML patients in blast crisis. Multicolor fluorescence in situ hybridization identified a multitude of structural chromosome aberrations. In addition, genomic gains identified by comparative genomic hybridization (CGH) were mapped to highly complex marker chromosomes in more than one cell line. The most common genomic loss detected by CGH affected chromosome 9, whereas the most common genomic gains affected, in order of frequency, the sequences of 8q, 6, and 13q. The smallest discrete amplification on 8q was identified in cell line MEG-01. This amplicon contains sequences represented by the marker D8S263/RMC08P029 but did not contain the proximal MYC gene or a more distal marker, D8S256/RMC08P025. We determined the size of the amplicon to be less than the chromosome segment 8q24.12,q24.13. The use of region- and locus-specific probes to analyze the organization of highly complex marker structures aided the identification of preferentially amplified genomic regions. The resultant amplifications could harbor gene(s) driving disease progression. © 2003 Wiley-Liss, Inc. [source]

Genome-wide profiling of oral squamous cell carcinoma

THE JOURNAL OF PATHOLOGY, Issue 3 2004
Yann-Jang Chen
Abstract Oral squamous cell carcinoma (OSCC) is a common malignancy, the incidence of which is particularly high in some Asian countries due to the geographically linked areca quid (AQ) chewing habit. In this study, array-based comparative genomic hybridization was used to screen microdissected OSCCs for genome-wide alterations. The highest frequencies of gene gain were detected for TP63, Serpine1, FGF4/FGF3, c- Myc and DMD. The highest frequencies of deletion were detected for Caspase8 and MTAP. Gained genes, classified by hierarchical clustering, were mainly on 17q21,tel; 20q; 11q13; 3q27,29 and the X chromosome. Among these, gains of EGFR at 7p, FGF4/FGF3, CCND1 and EMS1 at 11q13, and AIB1 at 20q were significantly associated with lymph node metastasis. The genomic profiles of FHIT and EXT1 in AQ-associated and non-AQ-associated OSCCs exhibited the most prominent differences. RT-PCR confirmed the significant increase of TP63 and Serpine1 mRNA expression in OSCC relative to non-malignant matched tissue. A significant increase in Serpine1 immunoreactivity was observed from non-malignant matched tissue to OSCC. However, there was no correlation between the frequent genomic loss of Caspase 8 and a significant decrease in Caspase8 expression. These data demonstrate that genomic profiling can be useful in analysing pathogenetic events involved in the genesis or progression of OSCC. Copyright © 2004 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. [source]

Low Frequency of Chromosomal Imbalances in Anaplastic Ependymomas as Detected by Comparative Genomic Hybridization

BRAIN PATHOLOGY, Issue 2 2001
Stefanie Scheil
We screened 26 ependymomas in 22 patients (7 WHO grade I, myxopapillary, myE; 6 WHO grade II, E; 13 WHO grade III, anaplastic, aE) using comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH). 25 out of 26 tumors showed chromosomal imbalances on CGH analysis. The chromosomal region most frequently affected by losses of genomic material clustered on 13q (9/26). 6/7 myE showed a loss on 13q14-q31. Other chromosomes affected by genomic losses were 6q (5/26), 4q (5/26), 10 (5/26), and 2q (4/26). The most consistent chromosomal abnormality in ependymomas so far reported, is monosomy 22 or structural abnormality 22q, identified in approximately one third of Giemsabanded cases with abnormal karyotypes. Using FISH, loss or monosomy 22q was detected in small subpopulations of tumor cells in 36% of cases. The most frequent gains involved chromosome arms 17 (8/26), 9q (7/26), 20q (7/26), and 22q (6/26). Gains on 1q were found exclusively in pediatric ependymomas (5/10). Using FISH, MYCN proto-oncogene DNA amplifications mapped to 2p23-p24 were found in 2 spinal ependymomas of adults. On average, myE demonstrated 9.14, E 5.33, and aE 1.77 gains and/or losses on different chromosomes per tumor using CGH. Thus, and quite paradoxically, in ependymomas, a high frequency of imbalanced chromosomal regions as revealed by CGH does not indicate a high WHO grade of the tumor but is more frequent in grade I tumors. [source]