Abstract
BackgroundUveal melanoma is the most common primary intraocular tumor in adults in western countries. It is associated with very severe visual morbidity and may lead to distant metastases even after successful treatment of the primary tumor. In order to gain better insight into molecular mechanisms related to tumorigenesis and metastasis of uveal melanoma, we used next-generation sequencing technology (SOLiD, Life Technologies) to acquire global transcriptome alteration between posterior uveal melanoma cells and normal uveal melanocyte.ResultsFrom mRNAs of the cultured uveal melanoma cells and normal uveal melanocytes, we annotated more than 3.7×107 and 2.7×107 sequencing tags based on human Ensembl databases, respectively. For detailed analysis, we chose 5155 well-annotated genes mainly involved in the MAPK signaling pathway, cell cycle, cell adhesion junction, apoptosis, and P53 signaling pathways as well as melanogenesis. In an effort to confirm the authenticity of our sequencing results, we validated twenty-one identically differentially expressed genes by using quantitative real time PCR from cultured cell lines of other posterior uveal melanoma cells and normal uveal melanocytes.ConclusionWe have identified a large number of potentially interesting genes for biological investigation of uveal melanoma. The expression profiling also provides useful resources for other functional genomic and transcriptome studies. These 21 potential genes could discriminate between uveal melanoma cells and normal uveal melanocyte, which may be indicative of tumorigenesis process. Our results further suggest that high-throughput sequencing technology provides a powerful tool to study mechanisms of tumogenesis in the molecular level.
Highlights
Uveal melanoma (UM) is an intraocular malignant tumor occurring mainly in adult Caucasian and originates from melanocytes of the choroid, iris, and ciliary body [1,2]
From the most abundant genes, we discovered that most of them were related to melanocyte pathphysiological changes relevant to metabolisms of cell cycle and apoptosis (Table S3), which were associated with these two cell types
The lack of BRAF mutations in posterior UM predicates that missense mutations of BRAF is not related to the unlimited cell proliferation in UM, which is differnt from the pathogenesis of cutaneous melanoma
Summary
Uveal melanoma (UM) is an intraocular malignant tumor occurring mainly in adult Caucasian and originates from melanocytes of the choroid, iris, and ciliary body [1,2]. Though UM is relatively rare compared with other malignant tumors, it contributes to a large proportion of death rates and leads to distant metastases even after successful treatment of the local tumors [4]. Uveal melanoma is the most common primary intraocular tumor in adults in western countries. It is associated with very severe visual morbidity and may lead to distant metastases even after successful treatment of the primary tumor. In order to gain better insight into molecular mechanisms related to tumorigenesis and metastasis of uveal melanoma, we used next-generation sequencing technology (SOLiD, Life Technologies) to acquire global transcriptome alteration between posterior uveal melanoma cells and normal uveal melanocyte
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