Project description:Using arbitrary primed-PCR (AP-PCR), we have identified a novel genetic alteration located at chromosome 11q23.2 and this genetic alteration was common in 38% of the human Wilms tumour samples analysed. Further characterisation by cloning and sequencing of this genomic region revealed that it represents a part of an uncharacterised gene. We have named this gene as Sporadic Kidney Cancer Gene-1 (SKCG-1). Using fluorescence in situ hybridisation (FISH) approach, we established its localisation on the chromosome 11q23.2. Northern analysis revealed the transcript size of SKCG-1 of 2.09 kb and this was further confirmed by full-length cDNA sequence. Sequence analysis revealed an active translation start site (ATG sequence), a polyadenylation signal sequence (AATAAA), and an open reading frame (ORF) encoding a peptide of 124 amino acids in the cDNA sequence of SKCG-1. Analysis of genomic sequence of SKCG-1 revealed a promoter region containing TATA box located at -13 bp upstream of transcription start site. The AP-PCR, SCAR, and Southern blot analyses indicated genomic loss of SKCG-1 in Wilms tumours. The transcript of SKCG-1 was abundantly present in brain, kidney, liver, testis, salivary gland, foetal brain, foetal liver, whereas relatively lower expression in heart, stomach, prostate and no expression in spleen, colon, lung, small intestine, muscle, adrenal gland, uterus, skin, PBL, and bone marrow was detected. The expression of this gene transcript was either very less or undetectable in Wilms and breast tumours compared to their matched uninvolved tissues. Inhibition of SKCG-1 by siRNA resulted in increased cell proliferation of kidney epithelial cells. Based on the presence of two transmembrane regions in its peptide, SKCG-1 has been predicted as a transmembrane protein. Thus, the findings of this study revealed (i) SKCG-1, a new gene located at 11q23.2 and harbouring genetic alteration in Wilms tumours, (ii) the presence of SKCG-1 gene transcripts in various human normal tissues and its lower expression or absence in Wilms and breast tumours indicate that it may be associated with tumour growth suppressor activity, (iii) the presence of an open reading frame in the cDNA sequence of SKCG-1 indicates that it has potential to encode a protein, (iv) increased cell growth by silencing this gene in HEK293 cells further supports a potential role of this gene in growth of kidney epithelial cells. Our findings suggest that SKCG-1 may have a tumour suppressor role, and implicate genetic alteration in this gene as a potential oncogenic pathway and therapeutic target in kidney and breast cancer.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Pituitary tumors are generally considered as benign. However, many are invasive (45 to 55%) and some are described as aggressive with a high proliferation rate and short post-operative time to recurrence and 0.2% metastasize. The molecular events associated to the progression of the pituitary tumor toward an aggressive and malignant phenotype is still unresolved. To bring new hypothesis on signaling pathways associated to the tumor progression, we applied a wide genome analysis approach combining transcriptome analysis and CGH analysis on the same 13 prolactin tumours classified as non-invasive (n=5), invasive (n=2) and agressive-invasive tumors (n=6). In 5/6 agressive-invasive tumours a loss of a common region in the p arm of the chromosome 11 was detected. This region extending from position 14.9 to position 46.5 Mb harbours the cytobands 11p15.2, 11p15.1, 11p14.3, 11p14.2, 11p14.1, 11p13, 11p12 and 11p11.2. In 3 of these 5 tumours considered as carcinomas because of the presence of metastasis, an allelic loss is also observed in the 11q arm. The combination of data coming from genome structure exploration and transcriptomic analysis showed that allelic loss impact the expression of genes harbored in the imbalanced region. Data filtering strategy allowed us to highlight among the 139 genes harbored in the 11p region loss, 5 genes (DGKZ, CD44, TSG101, GTF2H1 and HTATIP2) that could be candidate gene for triggering the progression of prolactin tumour toward an aggressive and malignant phenotype. Finally, specific DNA alterations give one molecular argument more to consider agressive-invasive tumour and carcinomas as a distinct step in progression of the pituitary tumours.

Project description:We report a girl with a de novo distal deletion of 9p affected by idiopathic central precocious puberty and intellectual disability. Genome-wide array-CGH revealed a terminal deletion of about 11?Mb, allowing to define her karyotype as 46; XX, del(9)(p23-pter). To our knowledge, this is the second reported case of precocious puberty associated with 9p distal deletion. A third case associates precocious puberty with a more proximal 9p deletion del(9)(p12p13,3). In our case, more than 40 genes were encompassed in the deleted region, among which, DMRT1 which is gonad-specific and has a sexually dimorphic expression pattern and ERMP1 which is required in rats for the organization of somatic cells and oocytes into discrete follicular structures. Although we cannot exclude that precocious puberty in our del(9p) patient is a coincidental finding, the report of the other two patients with 9p deletions and precocious puberty indeed suggests a causative relationship.

Project description:Pituitary tumors are generally considered as benign. However, many are invasive (45 to 55%) and some are described as aggressive with a high proliferation rate and short post-operative time to recurrence and 0.2% metastasize. The molecular events associated to the progression of the pituitary tumor toward an aggressive and malignant phenotype is still unresolved. To bring new hypothesis on signaling pathways associated to the tumor progression, we applied a wide genome analysis approach combining transcriptome analysis and CGH analysis on the same 13 prolactin tumours classified as non-invasive (n=5), invasive (n=2) and agressive-invasive tumors (n=6). In 5/6 agressive-invasive tumours a loss of a common region in the p arm of the chromosome 11 was detected. This region extending from position 14.9 to position 46.5 Mb harbours the cytobands 11p15.2, 11p15.1, 11p14.3, 11p14.2, 11p14.1, 11p13, 11p12 and 11p11.2. In 3 of these 5 tumours considered as carcinomas because of the presence of metastasis, an allelic loss is also observed in the 11q arm. The combination of data coming from genome structure exploration and transcriptomic analysis showed that allelic loss impact the expression of genes harbored in the imbalanced region. Data filtering strategy allowed us to highlight among the 139 genes harbored in the 11p region loss, 5 genes (DGKZ, CD44, TSG101, GTF2H1 and HTATIP2) that could be candidate gene for triggering the progression of prolactin tumour toward an aggressive and malignant phenotype. Finally, specific DNA alterations give one molecular argument more to consider agressive-invasive tumour and carcinomas as a distinct step in progression of the pituitary tumours. Copy number analysis of Affymetrix Genome-Wide Human SNP Array 6.0 was performed for 13 prolactin tumors, 6 aggressive-invasive, 2 invasive, 5 non-invasive. The same analysis was performed for one normal pituitary and one genomic DNA called "reference 103" from Affymetrix.

Project description:This SuperSeries is composed of the following subset Series: GSE22615: Genomic alterations of chromosome 11 induce transcriptomic dysregulation in aggressive and malignant prolactin tumours GSE22812: Transcriptomic dysregulation in aggressive and malignant prolactin tumours Refer to individual Series

Project description:Rat ovarian surface epithelial cells transformed spontaneously in vitro have been found to have homozygous deletions of the interferon alpha (IFNA) gene. This suggests that inactivation of a tumor-suppressor gene in this region may be crucial for the development of ovarian cancer. We therefore used microsatellite markers and Southern analysis to examine the homologous region in humans--the short arm of chromosome 9--for deletions in sporadic ovarian adenocarcinomas and ovarian tumor cell lines. Loss of heterozygosity occurred in 34 (37%) of 91 informative sporadic tumors, including some benign, low-malignant-potential and early-stage tumors, suggesting that it is an early event in the development of ovarian adenocarcinoma. Furthermore, homozygous deletions on 9p were found in 2 of 10 independent cell lines. Deletion mapping of the tumors and lines indicates that the candidate suppressor gene inactivated as a consequence lies between D9S171 and the IFNA locus, a region that is also deleted in several other tumors and that contains the melanoma predisposition gene, MLM.

Project description:The goal of this experiment was to determine the size, genomic extent and gene content of rearrangements involving 17p.

Project description:In a male mouse, meiosis markers of processed DNA double strand breaks (DSBs) such as DMC1 and RAD51 are regularly seen in the non-PAR region of the X chromosome; these disappear late in prophase prior to entry into the first meiotic metaphase. Marker evidence for DSBs occurring in the non-PAR region of the Y chromosome is limited. Nevertheless, historically it has been documented that recombination can occur within the mouse Y short arm (Yp) when an additional Yp segment is attached distal to the X and/or the Y pseudoautosomal region (PAR). A number of recombinants identified among offsprings involved unequal exchanges involving repeated DNA segments; however, equal exchanges will have frequently been missed because of the paucity of markers to differentiate between the two Yp segments. Here, we discuss this historical data and present extensive additional data obtained for two mouse models with Yp additions to the X PAR. PCR genotyping enabled identification of a wider range of potential recombinants; the proportions of Yp exchanges identified among the recombinants were 9.7 and 22.4 %. The frequency of these exchanges suggests that the Yp segment attached to the X PAR is subject to the elevated level of recombinational DSBs that characterizes the PAR.

Project description:BackgroundMutations in the neurofibromatosis type 2 (NF2) tumor-suppressor gene have been identified in not only NF2-related tumors but also sporadic vestibular schwannomas (VS). This study investigated the genetic and epigenetic alterations in tumors and blood from 30 Korean patients with sporadic VS and correlated these alterations with tumor behavior.Methodology/principal findingsNF2 gene mutations were detected using PCR and direct DNA sequencing and three highly polymorphic microsatellite DNA markers were used to assess the loss of heterozygosity (LOH) from chromosome 22. Aberrant hypermethylation of the CpG island of the NF2 gene was also analyzed. The tumor size, the clinical growth index, and the proliferative activity assessed using the Ki-67 labeling index were evaluated. We found 18 mutations in 16 cases of 30 schwannomas (53%). The mutations included eight frameshift mutations, seven nonsense mutations, one in-frame deletion, one splicing donor site, and one missense mutation. Nine patients (30%) showed allelic loss. No patient had aberrant hypermethylation of the NF2 gene and correlation between NF2 genetic alterations and tumor behavior was not observed in this study.Conclusions/significanceThe molecular genetic changes in sporadic VS identified here included mutations and allelic loss, but no aberrant hypermethylation of the NF2 gene was detected. In addition, no clear genotype/phenotype correlation was identified. Therefore, it is likely that other factors contribute to tumor formation and growth.