Altered gene expression in neural crest cells exposed to ethanol in vitro
Abstract Aim: to characterize and compare ethanol-induced changes of gene expression in cells from the cranial (cNCC) and trunk (tNCC) portion of the neural crest cell (NCC) population of day-10 rat embryos. Background: previous work has suggested that ethanol-induced embryonic maldevelopment is ass...
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Veröffentlicht in: | Brain research 2009-12, Vol.1305, p.S50-S60 |
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Zusammenfassung: | Abstract Aim: to characterize and compare ethanol-induced changes of gene expression in cells from the cranial (cNCC) and trunk (tNCC) portion of the neural crest cell (NCC) population of day-10 rat embryos. Background: previous work has suggested that ethanol-induced embryonic maldevelopment is associated with oxidative stress, and, in particular, that ethanol-induced anomalies of the facial skeleton and heart are associated with disturbed development of the cNCC. We studied alterations of mRNA levels of genes involved in apoptosis, oxidative defense, cellular metabolism, NCC development or inflammation in cNCC and tNCC from rat embryos exposed to ethanol in vitro . We specifically evaluated expression differences between cNCC and tNCC genes, possibly reflecting the different teratological susceptibilities of the two cell populations. Methods: neural tube explants from rat embryos were divided in cranial and trunk portions and used for NCC isolation in vitro on gestational day 10. The migrating cells from the cranial or trunk explants of the neural tube were subsequently exposed to 0 or 88 mmol/l ethanol concentration with or without addition of 0.5 mM N-acetylcysteine (NAC) for 48 h, harvested, and prepared for gene expression measurement by RT-PCR or immunostaining with either distal-less (DLX) or AP 2-alpha antibodies. Results: evaluation of the immunostained slides showed that approximately 75% of the cNCC and tNCC preparations were of neural crest origin. Exposure to 88 mM ethanol increased the Bax/Bcl-2 ratio in the NCC, and NAC addition diminished this increase. Both cNCC and tNCC upregulated MnSOD and Gpx-1 in response to ethanol, whereas tNCC increased CuZnSOD and EC-SOD after ethanol exposure (cNCC unchanged). Expression of glyceraldehyde-3-phosphate dehydrogenase was downregulated by ethanol in cNCC only. In addition, ethanol exposure caused increased mRNA levels of Pax-3, p53, Vegf-A and decreased expression of Pax-6, Nfe2 in both cNCC and tNCC. Ethanol increased Shh and Bmp-4 and decreased Parp only in cNCC (tNCC unchanged), whereas ethanol exposure increased T box-2 and decreased Gdnf and Ret only in tNCC (cNCC unchanged). In addition, ethanol exposure almost abolished expression of Hox a1 , a4 and a5 , and left Hox a2 unchanged in cNCC, whereas all four of these Hox genes were upregulated in tNCC. Conclusions: ethanol causes a shift towards apoptosis in both cNCC and tNCC, a shift, which is diminished by NAC treatment. Oxidative defense gen |
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ISSN: | 0006-8993 1872-6240 1872-6240 |
DOI: | 10.1016/j.brainres.2009.08.057 |