Abstract
Retinoblastoma is a rare childhood cancer of the developing retina. Most retinoblastomas initiate with biallelic inactivation of the RB1 gene through diverse mechanisms including point mutations, nucleotide insertions, deletions, loss of heterozygosity and promoter hypermethylation. Recently, a novel mechanism of retinoblastoma initiation was proposed. Gallie and colleagues discovered that a small proportion of retinoblastomas lack RB1 mutations and had MYCN amplification [1]. In this study, we identified recurrent chromosomal, regional and focal genomic lesions in 94 primary retinoblastomas with their matched normal DNA using SNP 6.0 chips. We also analyzed the RB1 gene mutations and compared the mechanism of RB1 inactivation to the recurrent copy number variations in the retinoblastoma genome. In addition to the previously described focal amplification of MYCN and deletions in RB1 and BCOR, we also identified recurrent focal amplification of OTX2, a transcription factor required for retinal photoreceptor development. We identified 10 retinoblastomas in our cohort that lacked RB1 point mutations or indels. We performed whole genome sequencing on those 10 tumors and their corresponding germline DNA. In one of the tumors, the RB1 gene was unaltered, the MYCN gene was amplified and RB1 protein was expressed in the nuclei of the tumor cells. In addition, several tumors had complex patterns of structural variations and we identified 3 tumors with chromothripsis at the RB1 locus. This is the first report of chromothripsis as a mechanism for RB1 gene inactivation in cancer.
Highlights
Most retinoblastomas are believed to initiate with biallelic inactivation of the retinoblastoma susceptibility gene (RB1) which is rate limiting for tumorigenesis [2, 3]
In addition to the previously reported recurrent focal losses of RB1 and BCOR and amplification of MYCN, we identified a recurrent focal amplification of OTX2 in 3% of retinoblastomas
We identified 10 tumors in our cohort that lacked RB1 gene mutations using conventional exon sequencing approaches so we performed whole genome sequence analysis of the 10 tumors and their matched germline tissue
Summary
Most retinoblastomas are believed to initiate with biallelic inactivation of the retinoblastoma susceptibility gene (RB1) which is rate limiting for tumorigenesis [2, 3]. Over the past 27 years since the RB1 gene was cloned, researchers have focused on identifying genetic lesions in retinoblastoma that contribute to tumor progression following RB1 inactivation [4]. Cytogenetic and array comparative genome hybridization (aCGH) studies have led to the identification of regions of the genome that are gained or lost in retinoblastomas and may contribute to tumorigenesis [4]. The DEK gene is within the 0.6 Mb minimal region of chromosome 6p22 that is gained in retinoblastoma and there is a significant increase (~2.5 fold) in gene expression in tumors with 6p22 gain (n=5) compared to those without 6p22 gain (n=2) [5]. In a separate study using 21 primary retinoblastomas, Grasemann et al identified 3 genes (NUP153, E2F3 and TTRAP) with significantly elevated expression (1.7-2.2 fold increase) in tumors with 6p gains [6]
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