Abstract
PurposeGlioblastoma is still intractable despite the progress in therapies, and the intractability is attributable to a minor population of stem-like tumor cells. As a niche harboring quiescent stem-like tumor cells with potentially high tumorigenicity, we have specified an area around large ischemic necrosis, termed ‘peri-necrotic niche’, in glioblastoma. In this study, the behavior of tumor cells inside and outside the peri-necrotic niche was analyzed to find out molecules responsible for reactivation of quiescent stem-like tumor cells to proliferate outside the niche.MethodsExpression of Ki-67 and GINS complex composed of SLD5, PSF1, PSF2 and PSF3 was analyzed by immunohistochemistry in human glioblastoma tissue samples. Proliferation assays, immunoblotting and siRNA experiments were performed using a glioblastoma cell line.ResultsImmunohistochemical analysis revealed quiescent and proliferative phenotypes of tumor cells inside and outside the niche, respectively, and the proliferation was spatially correlated with the expression of GINS components in tumor cells. To mimic the tissue microenvironment inside versus outside the niche, glioblastoma cells were cultured under hypoxic versus normoxic conditions, or without versus with serum. Quiescence and proliferation of tumor cells were reversibly determined by the microenvironment inside and outside the niche, respectively, and proliferative activities paralleled the expression levels of GINS components. Furthermore, the reactivation of proliferation after reoxygenation or serum replenishment was suppressed in quiescent tumor cells with PSF1 knockdown.ConclusionsThese findings indicate the essential role of GINS complex in the switch between quiescence and proliferation of tumor cells inside and outside the peri-necrotic niche.
Highlights
Prognosis of patients with glioblastoma is unfavorable regardless of many studies which analyzed the genetic abnormalities as well as the pathophysiology of glioblastoma (Ohgaki et al 2004)
To surmise the role of GINS complex in the reactivation of quiescent stem-like glioma cells lying dormant in the peri-necrotic niche, the expression of GINS components, PSF1, PSF2, PSF3 and SLD5, in human glioblastoma tissues was analyzed by immunohistochemistry
Quantitative analysis has verified the significant decrease in the frequency of glioma cells expressing GINS components inside the peri-necrotic niche as compared with that outside of the niche, which is Tissue hypoxia and nutrient deficiency induce the quiescence in glioma cells Microenvironment of the peri-necrotic niche is characterized by the decrease in supply of oxygen as well as nutrients, and, T98G glioma cells were cultured under condition of hypoxia or serum deprivation to reproduce in vitro the peri-necrotic niche of glioma tissues
Summary
Prognosis of patients with glioblastoma is unfavorable regardless of many studies which analyzed the genetic abnormalities as well as the pathophysiology of glioblastoma (Ohgaki et al 2004). It is generally accepted that unfavorable prognosis of glioblastoma is attributable to a minor population of tumor cells with stem cell-like properties which would be, the candidates for therapeutic targets (Chen et al 2012b; Sundar et al 2014). For growth of tumors including recurrence after chemotherapy, stem-like tumor cells are required to acquire the proliferative activity in the microenvironment, outside of the peri-necrotic niche, with increased oxygen concentration, plenty of nutrients and so forth. The molecules responsible for activating the stem-like tumor cells when they go outside the peri-necrotic niche could be the targets for new therapies to overcome the poor prognosis of patients by keeping tumors in dormant state, even if there remain tumor cells alive after therapies
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