Abstract
Retinoblastoma (RB) arises from the retina, and its growth usually occurs under the retina and toward the vitreous. Ideal therapy should aim to inhibit the tumor and protect neural cells, increasing the patient's life span and quality of life. Previous studies have demonstrated that Thrombospondin-1 (TSP-1) is associated with neurogenesis, neovascularization and tumorigenesis. However, at present, the bioactivity of TSP-1 in retinoblastoma has not been defined. Herein, we demonstrated that TSP-1 was silenced in RB cell lines and clinical tumor samples. HDAC inhibitor, Trichostatin A (TSA), could notably transcriptionally up-regulate TSP-1 in RB cells, WERI-Rb1 cells and Y79 cells. Moreover, we found human recombinant TSP-1 (hTSP-1) could significantly inhibit the cell viability of RB cells both in vitro and in vivo. Interestingly, hTSP-1 could significantly induce the expression of γ-H2AX, a well-characterized in situ marker of DNA double-strand breaks (DSBs) in RB cells. The DNA NHEJ pathway in WERI-Rb1 cells could be significantly inhibited by hTSP-1. A mutation in Rb1 might be involved in the hTSP-1-medicated γ-H2AX increasing in WERI-Rb1 cells. Furthermore, hTSP-1 could inhibit RB cells while promoting retinal neurocyte survival in the neuronal and retinoblastoma cell co-culture system. As such, TSP-1 may become a therapeutic target for treatment of retinoblastoma.
Highlights
Retinoblastoma is a pediatric eye tumor arising in the retina, representing the most common childhood intraocular malignancy
TSP-1 is silenced in clinical RB tumor samples and RB cells and histone deacetylation might be involved in this process
Western blot and immunohistofluorescence assay demonstrated that the expression level of TSP-1 in both WERI-Rb1 and Y79 cells was time-dependently increased after treatment with Trichostatin A (TSA) (Figure 1F and 1G)
Summary
Retinoblastoma is a pediatric eye tumor arising in the retina, representing the most common childhood intraocular malignancy. Despite a good understanding of its etiology, mortality from retinoblastoma is approximately 70% in countries of low and middle income. Several treatments are available for retinoblastoma, including chemotherapy, radioactive plaque, external beam radiotherapy, cryotherapy and surgery [2]. Each of these therapies has major drawbacks for pediatric patients. Ideal therapeutic agents for the treatment of tumors should possess the following properties: inhibition of the proliferation of tumor cells and protection of neurons against the excitotoxicity induced by retinoblastoma cells. New adjuvant treatments with better safety and efficacy profiles are needed for retinoblastoma
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