Differential cytotoxic effects of mono-(2-ethylhexyl) phthalate on blastomere-derived embryonic stem cells and differentiating neurons

Abstract Potential applications of embryonic stem (ES) cells are not limited to regenerative medicine but can also include in vitro screening of various toxicants. In this study, we established mouse ES cell lines from isolated blastomeres of two-cell stage embryos and examined their potential use a...

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Bibliographic Details
Published in:Toxicology (Amsterdam) 2009-10, Vol.264 (3), p.145-154
Main Authors: Lim, Chun Kyu, Kim, Suel-Kee, Ko, Duck Sung, Cho, Jea Won, Jun, Jin Hyun, An, Su-Yeon, Han, Jung Ho, Kim, Jong-Hoon, Yoon, Yong-Dal
Format: Article
Language:English
Subjects:
Animals
Apoptosis
Apoptosis - drug effects
Biological and medical sciences
Blastomere
Blastomeres - drug effects
Blastomeres - metabolism
Blastomeres - pathology
Caspase 3 - metabolism
Cell Differentiation
Cell Line
Cell Survival - drug effects
Cytotoxicity
Diethylhexyl Phthalate - analogs & derivatives
Diethylhexyl Phthalate - toxicity
DNA Fragmentation
Dose-Response Relationship, Drug
Embryonic stem cell
Embryonic Stem Cells - drug effects
Embryonic Stem Cells - metabolism
Embryonic Stem Cells - pathology
Emergency
Enzyme Activation
Medical sciences
Mice
Mono-(2-ethylhexyl) phthalate
Neural progenitor cell
Neurons - drug effects
Neurons - metabolism
Neurons - pathology
Plasticizers - toxicity
Risk Assessment
Time Factors
Toxicity Tests
Toxicology
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Summary:Abstract Potential applications of embryonic stem (ES) cells are not limited to regenerative medicine but can also include in vitro screening of various toxicants. In this study, we established mouse ES cell lines from isolated blastomeres of two-cell stage embryos and examined their potential use as an in vitro system for the study of developmental toxicity. Two ES cell lines were established from 69 blastomere-derived blastocysts (2.9%). The blastomere-derived ES (bm-ES) cells were treated with mono-(2-ethylhexyl) phthalate (MEHP) in an undifferentiated state or after directed differentiation into early neural cell types. We observed significantly decreased cell viability when undifferentiated bm-ES cells were exposed to a high dose of MEHP (1000 μM). The cytotoxic effects of MEHP were accompanied by increased DNA fragmentation, nuclear condensation, and activation of Caspase-3, which are biochemical and morphological features of apoptosis. Compared to undifferentiated bm-ES cells, considerably lower doses of MEHP (50 and 100 μM) were sufficient to induce cell death in early neurons differentiated from bm-ES cells. At the lower doses, the number of neural cells positive for the active form of Caspase-3 was greater than that for undifferentiated bm-ES cells. Thus, our data indicate that differentiating neurons are more sensitive to MEHP than undifferentiated ES cells, and that undifferentiated ES cells may have more efficient defense systems against cytotoxic stresses. These findings might contribute to the development of a new predictive screening method for assessment of hazards for developmental toxicity.
ISSN:0300-483X
1879-3185
DOI:10.1016/j.tox.2009.08.015