Hiroko Nansai scite author profile

The effects of chronic low-dose radiation on human health have not been well established. Recent studies have revealed that neural progenitor cells are present not only in the fetal brain but also in the adult brain. Since immature cells are generally more radiosensitive, here we investigated the effects of chronic low-dose radiation on cultured human neural progenitor cells (hNPCs) derived from embryonic stem cells. Radiation at low doses of 31, 124 and 496 mGy per 72 h was administered to hNPCs. The effects were estimated by gene expression profiling with microarray analysis as well as morphological analysis. Gene expression was dose-dependently changed by radiation. By thirty-one mGy of radiation, inflammatory pathways involving interferon signaling and cell junctions were altered. DNA repair and cell adhesion molecules were affected by 124 mGy of radiation while DNA synthesis, apoptosis, metabolism, and neural differentiation were all affected by 496 mGy of radiation. These in vitro results suggest that 496 mGy radiation affects the development of neuronal progenitor cells while altered gene expression was observed at a radiation dose lower than 100 mGy. This study would contribute to the elucidation of the clinical and subclinical phenotypes of impaired neuronal development induced by chronic low-dose radiation.

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Effects of Polyamidoamine Dendrimers on a 3-D Neurosphere System Using Human Neural Progenitor Cells

Yang

Kurokawa

Zeng

et al. 2016

Toxicol. Sci.

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The practical application of engineered nanomaterials or nanoparticles like polyamidoamine (PAMAM) dendrimers has been promoted in medical devices or industrial uses. The safety of PAMAM dendrimers needs to be assessed when used as a drug carrier to treat brain disease. However, the effects of PAMAM on the human nervous system remain unknown. In this study, human neural progenitor cells cultured as a 3D neurosphere model were used to study the effects of PAMAM dendrimers on the nervous system. Neurospheres were exposed to different G4-PAMAM dendrimers for 72 h at concentrations of 0.3, 1, 3, and 10 μg/ml. The biodistribution was investigated using fluorescence-labeled PAMAM dendrimers, and gene expression was evaluated using microarray analysis followed by pathway and network analysis. Results showed that PAMAM dendrimer nanoparticles can penetrate into neurospheres via superficial cells on them. PAMAM-NH2 but not PAMAM-SC can inhibit neurosphere growth. A reduced number of MAP2-positive cells in flare regions were inhibited after 10 days of differentiation, indicating an inhibitory effect of PAMAM-NH2 on cell proliferation and neuronal migration. A microarray assay showed 32 dendrimer toxicity-related genes, with network analysis showing 3 independent networks of the selected gene targets. Inducible immediate early gene early growth response gene 1 (Egr1), insulin-like growth factor-binding protein 3 (IGFBP3), tissue factor pathway inhibitor (TFPI2), and adrenomedullin (ADM) were the key genes in each network, and the expression of these genes was significantly down regulated. These findings suggest that exposure of neurospheres to PAMAM-NH2 dendrimers affects cell proliferation and migration through pathways regulated by Egr1, IGFBP3, TFPI2, and ADM.

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Peroxisome proliferator-activated receptor α mediates di-(2-ethylhexyl) phthalate transgenerational repression of ovarian Esr1 expression in female mice

et al. 2014

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Epigenetic effects of insecticides on early differentiation of mouse embryonic stem cells

Wang

Ito

Otsuka

et al. 2021

Toxicology in Vitro

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Low-Dose Radiation Disrupts the Transcription Cascade of PAX6

Katsura

Urade

Nansai

et al. 2021

Preprint

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Retinal stem cell differentiation is orchestrated by transcription cascades, and is prone to be influenced by stress factors. While threshold radiation dose for human mental retardation is reported, the effects on retinal transcription factors are unknown. To elucidate the effects of low-dose radiation on retinal differentiation, stem cells were irradiated. Genome-wide gene expression and histone modification were observed. After a month, the expression of PAX6, an essential transcription factor for retinal ganglion cell, was increased by 30 mGy but decreased by 180 mGy. POU5F1, POU2F1, SOX2, and PAX6 were predicted to be involved in regulation of PAX6. Further, upstream of POU5F1/POU2F1/ SOX2 was detected. Altered Rho family could be responsible for activity of SRF/STAT3/RELA, which were upstream of POU2F1/SOX2. These cascades could contribute to the regulation of PAX6 and unstable retinal development under stressful environment. Identification of the hierarchical regulations in the differentiation will help elucidate the retinal cell maintenance.

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Hiroko Nansai

Effects of Chronic Low-Dose Radiation on Human Neural Progenitor Cells

Effects of Polyamidoamine Dendrimers on a 3-D Neurosphere System Using Human Neural Progenitor Cells

Peroxisome proliferator-activated receptor α mediates di-(2-ethylhexyl) phthalate transgenerational repression of ovarian Esr1 expression in female mice

Epigenetic effects of insecticides on early differentiation of mouse embryonic stem cells

Low-Dose Radiation Disrupts the Transcription Cascade of PAX6

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