Project description:Retinoblastoma is the most common intraocular cancer of infancy and childhood, with an incidence of one case per 15,000 - 20,000 live births. An early event in retinoblastoma genesis is a functional loss of both alleles of the RB1 gene. However, other genes are likely to be involved in the development of this cancer. In this study we sought to build a comprehensive molecular portrait of this cancer by performing transcriptomic, methylomic, as well as genomic profiling of primary retinoblastoma samples. The patients whose tumors were studied had received no treatment prior to surgical enucleation. This SuperSeries is composed of the SubSeries listed below.

Project description:Transcriptome analysis of partially degraded and fragmented RNA samples from retinoblastoma primary tumors. Global gene expression profiling has shown great promise in high-throughput biomarker discovery for early disease detection in Retinoblastoma tumors. In this analysis we have used 3 retinoblastoma primary tumors in triplicates which was normalised against human healthy Retina. Here, we have used nanogram scale of retinoblastoma RNA, processed in HUMAN GENE 1.0 ST ARRAYS.

Project description:Transcriptome analysis of partially degraded and fragmented RNA samples from retinoblastoma primary tumors. Global gene expression profiling has shown great promise in high-throughput biomarker discovery for early disease detection in Retinoblastoma tumors. In this analysis we have used 3 retinoblastoma primary tumors in triplicates which was normalised against human healthy Retina. Here, we have used nanogram scale of retinoblastoma RNA, processed in HUMAN GENE 1.0 ST ARRAYS. We have analysed the gene expression in 2 normal healthy adult retina collected from cadaveric eyes and 3 retinoblastoma primary tumors

Project description:mRNA-seq of retinoblastoma samples

Project description:In order to identify the gene targets of frequently altered chromosomal regions in retinoblastoma, a meta-analysis of genome-wide copy number alterations studies on primary retinoblastoma tissue and retinoblastoma cell lines was performed. Published studies were complemented by copy number and gene expression analysis on primary and cell line samples of retinoblastoma. This dataset includes the gene expression data of the retinoblastoma cell lines

Project description:RNA-seq analysis of five retinoblastoma tumor samples to compare expression signature with retinal organoids generated from hESCs in vitro and modelling retinoblastoma

Project description:Retinoblastoma is a malignant tumor of the retina which most often occurs in children below 5 years of age with an incident rate of about 1 in 15,000 to 18,000 live births. Retinoblastoma is the first ever cancer that was reported to have a genetic basis. It occurs widely due to inactivating mutations in RB1 gene. Gene expression studies, copy number variation analysis, epigenetic profiling including miRNA and methylation of retinoblastoma has been carried to understand the disease mechanism and key players in the disease. Our group has earlier performed differential proteomics of retinoblastoma to identify proteins of therapeutic importance. However, there are no studies to understand the signalling mechanisms associated with retinoblastoma. Hence, global phosphoproteomics of retinoblastoma was carried out to identify signalling events associated with this cancer. Our study identified stress response proteins to be hyper phosphorylated which included H2AFX and sirtuin 1. In particular, Ser140 of H2AFX also known as gamma-H2AX was found to be hyperphosphorylated in retinoblastoma that indicated activation of DNA damage response pathways. We also observed activation of anti-apoptotic proteins in retinoblastoma compared to control. These observations showed activation of survival pathways and signalling networks activated in tumors.

Project description:Background Retinoblastoma is a pediatric eye cancer associated with RB1 loss or MYCN amplification (RB1+/+MYCNA). There are controversies concerning the existence of molecular subtypes within RB1-/- retinoblastoma. To test whether these molecular subtypes exist, we performed molecular profiling. Methods Genome-wide mRNA expression profiling was performed on 76 primary human retinoblastomas. Expression profiling was complemented by genome-wide DNA profiling and clinical, histopathological, and ex vivo drug sensitivity data. Findings RNA and DNA profiling identified major variability between retinoblastomas. While gene expression differences between RB1+/+MYCNA and RB1-/- tumors seemed more dichotomous, differences within the RB1-/- tumors were gradual. Tumors with high expression of a photoreceptor gene signature were highly differentiated, smaller in volume and diagnosed at younger age compared to tumors with low photoreceptor signature expression. Tumors with lower photoreceptor expression showed increased expression of genes involved in M-phase and mRNA and ribosome synthesis and increased frequencies of somatic copy number alterations. Interpretation Molecular, clinical and histopathological differences between RB1-/- tumors are best explained by tumor progression, reflected by a gradual loss of differentiation and photoreceptor expression signature. Since copy number alterations were more frequent in tumors with less photoreceptorness, genomic alterations might be drivers of tumor progression. Fresh frozen material from 76 primary human retinoblastoma samples were profiled with Affymetrix human genome u133 plus 2.0 PM microarray

Project description:We studied primary retinoblastoma by Whole-Exome Sequencing.

Project description:In order to identify the gene targets of frequently altered chromosomal regions in retinoblastoma, a meta-analysis of genome-wide copy number alterations studies on primary retinoblastoma tissue and retinoblastoma cell lines was performed. Published studies were complemented by copy number and gene expression analysis on primary and cell line samples of retinoblastoma. This dataset includes the gene expression data of the retinoblastoma cell lines This data set contains the gene expression (Affymetrix human genome u133 plus 2.0 PM) results for 7 unique retinoblastoma cell lines. For one of the 7 unique cell lines, 3 RNA isolations were performed and were profiled on seperate arrays, adding up to 9 unique array files. Copy number data for primary retinoblastoma (tumor and blood DNA) and retinoblastoma cell lines are available (controlled-access) at the European Genomics Archive. Gene expression data of primary retinoblastoma is available under GSE59983. The GSE59983 records represent the primary tissue gene expression data and the CN data will be deposited into a controlled-access database, probably EGA.