Project description:Isolated deletions of the long arm of chromosome 5 (del(5q)) are observed in 10% of myelodysplastic syndromes (MDS) and are associated with a more favorable prognosis, although the clinical course varies considerably. If one or more additional chromosomal aberration/s are present this correlates with a significant shorter overall survival. To assess the frequency of hidden abnormalities in cases with an isolated cytogenetic del(5q), we have performed a genome wide high resolution 44K 60mer oligonucleotide array CGH study using DNA from bone marrow cells of 12 MDS and one AML patient. Additional chromosomal aberrations were identified in three of 13 cases (23%): in one case, a single additional hidden 5.6 Mb deletion of 13q14 and in two cases, multiple larger aberrations involving many chromosomes. Fluorescence in situ hybridization (FISH) demonstrated that aberrations present in only 10% of the bone marrow cells were detectable by aCGH. Furthermore with oligonucleotide aCGH the deletion end points in 5q were mapped precisely, revealing a cluster of proximal break points in band q14.3 (n=8) and a distal cluster between bands q33.2 to q34 (n=11). This study shows the high resolution of oligonucleotide CGH arrays for precisely mapping genomic alterations and for refinement of deletion end points. In addition the high sensitivity of this method enables the study of whole bone marrow cells from MDS patients, a disease with a low blast count. Future studies of more patients with isolated del(5q) for hidden abnormalities will be necessary to evaluate the impact of these on the variable prognosis in these patients and to further define new genetic subgroups. Keywords: Myelodysplastic syndromes, MDS, array CGH, del(5q), hidden aberrations

Project description:Myelodysplastic syndromes (MDS) are a group of clonal disorders of hematopoietic stem cells. Mesenchymal stem cells (MSC) are the progenitors of the Bone Marrow (BM) stroma and have been involved in the physiopathology of MDS. The presence of cytogenetic aberrations on MSC from MDS patients is controversial. The aim of the study is to characterize BM derived MSC from patients with MDS using: kinetic studies, immunophenotyping, fluorescent in situ hybridisation (FISH) analysis and genetic changes by array based comparative genomic hybridization (array-CGH). 32 cases of untreated MDS were included in the study. MSC from MDS achieved confluence at a slower rate than donor-MSC, and the antigenic expression of CD105 and CD104 was also lower. Array-CGH studies showed DNA genomic changes that were proved not to be somatic, and gains were more frequent than looses. The results of array-CGH were confirmed by FISH. When an unsupervised hierarchical cluster analysis was performed two clusters were identified: one of them included the 5q- syndrome patients, while the other incorporated the rest of the MDS patients. Our results shows, for the first time, that MSC from MDS display genomic aberrations, assessed by array-CGH and FISH, some of them specially linked to particular MDS subtypes. Keywords: Genomic comparison between mesenchymal cells

Project description:This study aims to stratify stage II and III colon cancer patients for risk of disease recurrence based on DNA aberrations, including DNA copy number aberrations (CNA) and CNA-associated chromosomal breakpoints. To this end, high quality array-CGH data of clinically well-annotated colon cancer specimens was generated using FFPE material from a selected series of primary tumor and patient-matched normal tissue.

Project description:AML/MDS patients carrying 11q amplifications involving the mixed lineage leukemia gene (MLL) locus are characterized by a complex aberrant karyotype (CAK) frequently including deletions within 5q, 17p and 7q, a later onset and fast progression of the disease with extremely poor prognosis. We and others have shown that the MLL gene is overexpressed in amplified cases; however, in most of the cases the amplified region is not restricted to the MLL locus. In the present study we investigated 19 patients with AML/MDS and MLL gain/amplification. By means of array CGH performed in 12 patients we were able to delineate the minimal deleted regions within 5q, 17p and 7q and identified three independent regions 11q/I-III that were amplified in all cases. Gene expression profiles established in 15 cases (GSE10258) were used to define candidate genes within these regions. Interestingly, analysis of our data suggests an interdependency of loss of 5q and 17p and expression of genes present in 11q23-25. Furthermore, we demonstrate that the gene expression signature can be used to discriminate AML/MDS with MLL amplification from several other types of AML, thus, indicating specific pathogenesis present in this entity. Keywords: comparative genomic hybridization; array CGH

Project description:About 40% of patients with myelodysplastic syndromes (MDS) present with a normal karyotype and they are facing different courses of disease. To advance the biological understanding and find molecular prognostic markers we performed a high resolution oligonucleotide array study of 107 MDS patients (FAB) with a normal karyotype. Recurrent hidden deletions overlapping with known cytogenetic aberrations or sites of known tumor associated genes were identified in 4q24 (TET2, 2x), 5q31.2 (2x), 7q22.1 (3x) and 21q22.12 (RUNX1, 2x). One patient with a 7q22.1 had an additional 5q31.2 deletion of the AML/MDS region; the smallest deletion identified so far and includes the putative tumor suppressor (ts) genes EGR1 and CTNNA1. One TET2 deletion was homozygous and one heterozygous, with a missense mutation in the remaining allele, further supporting its role as ts gene. Besides these recurrent alterations, additional individual imbalances were found in 34 cases; in total 42/107 (39%) cases had genomic imbalances, deletions were more frequent than gains. These patients had an inferior survival as compared with the rest of the patients (P=0.002). This study emphasizes the heterogeneity of MDS but points to interesting genes which may have diagnostic and prognostic impact. Array CGH experiment, MDS tumor cells vs. control DNA. Total of 107 tumors.

Project description:AML/MDS patients carrying 11q amplifications involving the mixed lineage leukemia gene (MLL) locus are characterized by a complex aberrant karyotype (CAK) frequently including deletions within 5q, 17p and 7q, a later onset and fast progression of the disease with extremely poor prognosis. We and others have shown that the MLL gene is overexpressed in amplified cases; however, in most of the cases the amplified region is not restricted to the MLL locus. In the present study we investigated 19 patients with AML/MDS and MLL gain/amplification. By means of array CGH performed in 12 patients we were able to delineate the minimal deleted regions within 5q, 17p and 7q and identified three independent regions 11q/I-III that were amplified in all cases. Gene expression profiles established in 15 cases (GSE10258) were used to define candidate genes within these regions. Interestingly, analysis of our data suggests an interdependency of loss of 5q and 17p and expression of genes present in 11q23-25. Furthermore, we demonstrate that the gene expression signature can be used to discriminate AML/MDS with MLL amplification from several other types of AML, thus, indicating specific pathogenesis present in this entity. Keywords: comparative genomic hybridization; array CGH In this study, aCGH analysis performed on 12 DNA samples derived from patients with AML, preselected for the presence of MLL amplifications, were analysed on a submegabase resolution BAC array. No replicates, no dye swap was done. Gene expression profiling performed for 15 AML patients (GSE10258).

Project description:AML/MDS patients carrying 11q amplifications involving the mixed lineage leukemia gene (MLL) locus are characterized by a later onset, a complex aberrant karyotype (CAK) frequently including deletions within 5q, 17p and 7q, as well as fast progression of the disease with extremely poor prognosis. We and other have shown that the MLL gene is over expressed in amplified cases, however, in most of the cases the amplified region is not restricted to the MLL locus. In the present study we investigated 19 patients with AML/MDS and MLL gain/amplification [15 AML (two secondary, following MDS and PV, and three therapy related) and 4 MDS cases (two therapy related)]. By means of array CGH performed in 12 patients (GSE9928) we were able to delineate the minimal deleted regions within 5q, 17p and 7q and identified three independent regions 11q/I-III that were amplified in all cases. Gene expression profiles established in 15 cases were used to define the candidate genes within these regions. Interestingly, analysis of our data suggests an interdependency of genes influenced by losses of 5q and 17p and expression of genes present in 11q23-25. Additionally, we demonstrate that the gene expression signature can be used to discriminate AML/MDS with MLL amplification from all other types of AML, thus, indicating specific pathogenesis present in this entity. Keywords: AML patients, tumor stratification

Project description:AML/MDS patients carrying 11q amplifications involving the mixed lineage leukemia gene (MLL) locus are characterized by a later onset, a complex aberrant karyotype (CAK) frequently including deletions within 5q, 17p and 7q, as well as fast progression of the disease with extremely poor prognosis. We and other have shown that the MLL gene is over expressed in amplified cases, however, in most of the cases the amplified region is not restricted to the MLL locus. In the present study we investigated 19 patients with AML/MDS and MLL gain/amplification [15 AML (two secondary, following MDS and PV, and three therapy related) and 4 MDS cases (two therapy related)]. By means of array CGH performed in 12 patients (GSE9928) we were able to delineate the minimal deleted regions within 5q, 17p and 7q and identified three independent regions 11q/I-III that were amplified in all cases. Gene expression profiles established in 15 cases were used to define the candidate genes within these regions. Interestingly, analysis of our data suggests an interdependency of genes influenced by losses of 5q and 17p and expression of genes present in 11q23-25. Additionally, we demonstrate that the gene expression signature can be used to discriminate AML/MDS with MLL amplification from all other types of AML, thus, indicating specific pathogenesis present in this entity. Experiment Overall Design: In this study, gene expression profiling performed for 15 AML patients. Experiment Overall Design: aCGH analysis performed on 12 DNA samples derived from patients with AML, preselected for the presence of MLL amplifications, were analysed on a submegabase resolution BAC array. No replicates, no dye swap was done (GSE9928).

Project description:Chromosome 5q deletions (del(5q)) are common in high-risk (HR) Myelodysplastic Syndrome (MDS) and Acute Myeloid Leukemia (AML); however, the gene regulatory networks that sustain these aggressive diseases are unknown. Reduced miR-146a expression in del(5q) HR-MDS/AML and miR-146a-/- hematopoietic stem/progenitor cells (HSPC) results in TRAF6/NF-M-NM-:M-NM-^R activation. Increased survival and proliferation of HSPC from miR-146alow HR-MDS/AML is sustained by a neighboring haploid gene, SQSTM1 (p62), expressed from the intact 5q allele. Overexpression of p62 from the intact allele occurs through NF-M-NM-:B-dependent feedforward signaling mediated by miR-146a deficiency. p62 is necessary for TRAF6-mediated NF-M-NM-:B signaling, as disrupting the p62-TRAF6 signaling complex results in cell cycle arrest and apoptosis of MDS/AML cells. Thus, del(5q) HR-MDS/AML employs an intrachromosomal gene network involving loss of miR-146a and haploid overexpression of p62 via NF-M-NM-:B to sustain TRAF6/NF-M-NM-:B signaling for cell survival and proliferation. Interfering with the p62-TRAF6 signaling complex represents a therapeutic option in miR-146a-deficient and aggressive del(5q) MDS/AML. Four del(5q) MDS/AML patients with low miR-146a expression (5284, 8839, 8285, 4233) and 5 with high miR-146a expression (7957, 5534, 4688, 4982, 8412) were selected for microarray assay. RNA was reverse transcribed and labeled, and hybridized onto the GeneChip Human Gene 1.0 ST Array. A total of nine samples were included, and two groups are assigned based on miR-146a expression. Comparison comprises mRNA expression profile of low miR-146a group v.s. high miR-146a group.

Project description:Genomic DNA from sporadic breast tumours was isolated and analysed using array CGH. The NKI 1MB BAC/PAC micro array was used to identify chromosomal aberrations of all tumours. Keywords: sporadic breast tumour, CGH