Ethanol-induced upregulation of 10-formyltetrahydrofolate dehydrogenase helps relieve ethanol-induced oxidative stress

Tsun Hsien Hsiao, Chia Jen Lin, Yi Shao Chung, Gang Hui Lee, Tseng Ting Kao, Wen Ni Chang, Bing Hung Chen, Jan Jong Hung, Tzu Fun Fu

研究成果: Article

13 引文 (Scopus)

摘要

Alcoholism induces folate deficiency and increases the risk for embryonic anomalies. However, the interplay between ethanol exposure and embryonic folate status remains unclear. To investigate how ethanol exposure affects embryonic folate status and one-carbon homeostasis, we incubated zebrafish embryos in ethanol and analyzed embryonic folate content and folate enzyme expression. Exposure to 2% ethanol did not change embryonic total folate content but increased the tetrahydrofolate level approximately 1.5-fold. The expression of 10-formyltetrahydrofolate dehydrogenase (FDH), a potential intracellular tetrahydrofolate reservoir, was increased in both mRNA and protein levels. Overexpressing recombinant FDH in embryos alleviated the ethanol-induced oxidative stress in ethanol-exposed embryos. Further characterization of the zebrafish fdh promoter revealed that the-124/+40 promoter fragment was the minimal region required for transactivational activity. The results of site-directed mutagenesis and binding analysis revealed that Sp1 is involved in the basal level of expression of fdh but not in ethanol-induced upregulation of fdh. On the other hand, CEBPα was the protein that mediated the ethanol-induced upregulation of fdh, with an approximately 40-fold increase of fdh promoter activity when overexpressed in vitro. We concluded that upregulation of fdh involving CEBPα helps relieve embryonic oxidative stress induced by ethanol exposure.

原文English
頁(從 - 到)498-509
頁數12
期刊Molecular and Cellular Biology
34
發行號3
DOIs
出版狀態Published - 2014 二月 1

指紋

Oxidative Stress
Ethanol
Up-Regulation
Folic Acid
Embryonic Structures
Zebrafish
formyltetrahydrofolate dehydrogenase
Site-Directed Mutagenesis
Alcoholism
Proteins
Homeostasis
Carbon
Messenger RNA
Enzymes

All Science Journal Classification (ASJC) codes

  • Molecular Biology
  • Cell Biology

引用此文

Hsiao, Tsun Hsien ; Lin, Chia Jen ; Chung, Yi Shao ; Lee, Gang Hui ; Kao, Tseng Ting ; Chang, Wen Ni ; Chen, Bing Hung ; Hung, Jan Jong ; Fu, Tzu Fun. / Ethanol-induced upregulation of 10-formyltetrahydrofolate dehydrogenase helps relieve ethanol-induced oxidative stress. 於: Molecular and Cellular Biology. 2014 ; 卷 34, 編號 3. 頁 498-509.
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abstract = "Alcoholism induces folate deficiency and increases the risk for embryonic anomalies. However, the interplay between ethanol exposure and embryonic folate status remains unclear. To investigate how ethanol exposure affects embryonic folate status and one-carbon homeostasis, we incubated zebrafish embryos in ethanol and analyzed embryonic folate content and folate enzyme expression. Exposure to 2{\%} ethanol did not change embryonic total folate content but increased the tetrahydrofolate level approximately 1.5-fold. The expression of 10-formyltetrahydrofolate dehydrogenase (FDH), a potential intracellular tetrahydrofolate reservoir, was increased in both mRNA and protein levels. Overexpressing recombinant FDH in embryos alleviated the ethanol-induced oxidative stress in ethanol-exposed embryos. Further characterization of the zebrafish fdh promoter revealed that the-124/+40 promoter fragment was the minimal region required for transactivational activity. The results of site-directed mutagenesis and binding analysis revealed that Sp1 is involved in the basal level of expression of fdh but not in ethanol-induced upregulation of fdh. On the other hand, CEBPα was the protein that mediated the ethanol-induced upregulation of fdh, with an approximately 40-fold increase of fdh promoter activity when overexpressed in vitro. We concluded that upregulation of fdh involving CEBPα helps relieve embryonic oxidative stress induced by ethanol exposure.",
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Ethanol-induced upregulation of 10-formyltetrahydrofolate dehydrogenase helps relieve ethanol-induced oxidative stress. / Hsiao, Tsun Hsien; Lin, Chia Jen; Chung, Yi Shao; Lee, Gang Hui; Kao, Tseng Ting; Chang, Wen Ni; Chen, Bing Hung; Hung, Jan Jong; Fu, Tzu Fun.

於: Molecular and Cellular Biology, 卷 34, 編號 3, 01.02.2014, p. 498-509.

研究成果: Article

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