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Propofol inhibits proliferation and induces neuroapoptosis of hippocampal neurons in vitro via downregulation of NF‐κB p65 and Bcl‐2 and upregulation of caspase‐3
Author(s) -
Zhong Yuling,
Liang Yubing,
Chen Jing,
Li Li,
Qin Yi,
Guan Enjian,
He Dan,
Wei Yi,
Xie Yubo,
Xiao Qiang
Publication year - 2014
Publication title -
cell biochemistry and function
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.933
H-Index - 61
eISSN - 1099-0844
pISSN - 0263-6484
DOI - 10.1002/cbf.3077
Subject(s) - neurotoxicity , downregulation and upregulation , hippocampal formation , apoptosis , propofol , caspase 3 , in vitro , chemistry , pharmacology , microbiology and biotechnology , toxicity , biology , programmed cell death , endocrinology , medicine , biochemistry , gene
Propofol is widely used in paediatric anaesthesia and intensive care unit because of its essentially short‐acting anaesthetic effect. Recent data have shown that propofol induced neurotoxicity in developing brain. However, the mechanisms are not extremely clear. To gain a better insight into the toxic effects of propofol on hippocampal neurons, we treated cells at the days in vitro 7 (DIV 7), which were prepared from Sprague–Dawley embryos at the 18th day of gestation, with propofol (0.1–1000 μM) for 3 h. A significant decrease in neuronal proliferation and a remarkable increase in neuroapoptosis were observed in DIV 7 hippocampal neurons as measured by 3‐(4,5‐dimethylthiazole‐2‐yl)‐2,5‐diphenyltetrazolium bromide assay and apoptosis assay respectively. Moreover, propofol treatment decreased the nuclear factor kappaB (NF‐κB) p65 expression, which was accompanied by a reduction in B‐cell lymphoma 2 (Bcl‐2) mRNA and protein levels, increased caspase‐3 mRNA and activation of caspase‐3 protein. These results indicated that downregulation of NF‐κB p65 and Bcl‐2 were involved in the potential mechanisms of propofol‐induced neurotoxicity. This likely led to the caspase‐3 activation, triggered apoptosis and inhibited the neuronal growth and proliferation that we have observed in our in vitro systems. Copyright © 2014 John Wiley & Sons, Ltd.

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