Evaluation of hepatotoxicity of chemicals using hepatic progenitor and hepatocyte-like cells derived from mouse embryonic stem cells: effect of chemicals on ESC-derived hepatocyte differentiation
| Autor: | Seok-Jin Kang, Joon-Hyoung Cho, Young-Il Park, Sang-Hee Jeong, Hyo-Sook Shin, Seong-Wan Son, Sung-Won Park, Hwan-Goo Kang, Eun-Joo Kim |
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| Rok vydání: | 2012 |
| Předmět: |
Cell Survival
Health Toxicology and Mutagenesis Drug Evaluation Preclinical Aspartate transaminase CCL4 Biology Toxicology Animal Testing Alternatives Andrology chemistry.chemical_compound Mice Lactate dehydrogenase Arsanilic Acid Toxicity Tests medicine Animals Progenitor cell Carbon Tetrachloride Embryonic Stem Cells Hepatocyte differentiation Dose-Response Relationship Drug Cell Differentiation Cell Biology medicine.anatomical_structure Biochemistry chemistry Hepatocyte Toxicity biology.protein Hepatocytes Alkaline phosphatase Fluorouracil Biomarkers |
| Zdroj: | Cell biology and toxicology. 29(1) |
| ISSN: | 1573-6822 |
| Popis: | Embryonic stem cell testing is an alternative model system to assess drug and chemical toxicities because of its similar developmental characteristics with in vivo embryogenesis and organogenesis. This study evaluated the toxicity of chemicals at specific developmental stages of mouse embryonic stem cell (ESC)-derived hepatic differentiation; hepatic progenitor cells (HPCs), and hepatocyte-like cells (HCs). The toxic effects of carbon tetrachloride (CCl(4)), 5-fluorouracil (5-FU), and arsanilic acid (Ars) were evaluated by measuring the expressions of Cytokeratin (CK18) and GATA binding protein 4 (GATA-4) and the activities of aspartate transaminase (AST), lactate dehydrogenase (LDH), and alkaline phosphatase (ALP) during the hepatic differentiation process. Non-toxic doses of three chemicals at a range of 25 to 500 μM for CCl(4), 12.5 to 800 nM for 5-FU and 6.25 to 400 mM for Ars were treated. In the CCl(4)-treated group, significant decreases (P 0.05) of the marker expression were observed by more than 300 μM from day 10 in CK18 and by more than 400 μM of CCl(4) from day 22 in GATA-4, respectively. However, both markers were decreased (P 0.01) by treatments of all doses at day 40. In the 5-FU-treated group, the expressions of two proteins were not affected by any of the doses at day 10 and 22, whereas the GATA-4 expression was decreased (P 0.05) by more than 400 nM of 5-FU at days 28 and 40. In the Ars-treated group, the CK18 expression was inhibited (P 0.05) by more than 100 mM of Ars at day 22 but showed a tendency to recover. Although the GATA-4 was inhibited by all doses at day 22, the inhibition of GATA-4 recovered at days 28 and 40. ALP activities of three chemicals were significantly increased (P 0.05) by a dose-dependent manner. The activities of AST and LDH were prone to be increased by more than 300 μM of CCl(4,) but not affected by all doses of 5-FU except for 800 nM of 5-FU in AST activities. In the Ars, the enzyme activities were significantly increased (P 0.05) by more than 50 μM of Ars in AST and more than 6.25 μM of Ars in LDH. The present results indicate that CCl(4) has a more toxic effect on HCs, whereas Ars is more toxic to HPCs. Additionally, in vitro alternative testing using ESC-derived HPCs and HCs could provide useful information on chemical toxicity during the hepatic differentiation process and could be a useful model system for assessing chemical hepatotoxicity. |
| Databáze: | OpenAIRE |
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