Protein Information

ID 116
Name S100beta
Synonyms NEF; S100; Protein S100 B; S 100 protein beta chain; S 100 protein beta subunit; S100 beta; S100 calcium binding protein B; S100B…

Compound Information

ID 186
Name dichlorvos
CAS 2,2-dichloroethenyl dimethyl phosphate

Reference

PubMed Abstract RScore(About this table)
19146868 Hogberg HT, Kinsner-Ovaskainen A, Hartung T, Coecke S, Bal-Price AK: Gene expression as a sensitive endpoint to evaluate cell differentiation and maturation of the developing central nervous system in primary cultures of rat cerebellar granule cells (CGCs) exposed to pesticides. Toxicol Appl Pharmacol. 2009 Mar 15;235(3):268-86. Epub 2008 Dec 25.
The major advantage of primary neuronal cultures for developmental neurotoxicity (DNT) testing is their ability to replicate the crucial stages of neurodevelopment. In our studies using primary culture of cerebellar granule cells (CGCs) we have evaluated whether the gene expression relevant to the most critical developmental processes such as neuronal differentiation (NF-68 and NF-200) and functional maturation (NMDA and GABA (A) receptors), proliferation and differentiation of astrocytes (GFAP and S100beta) as well as the presence of neural precursor cells (nestin and Sox10) could be used as an endpoint for in vitro DNT. The expression of these genes was assessed after exposure to various pesticides (paraquat parathion, dichlorvos, pentachlorophenol and cycloheximide) that could induce developmental neurotoxicity through different mechanisms. All studied pesticides significantly modified the expression of selected genes, related to the different stages of neuronal and/or glial cell development and maturation. The most significant changes were observed after exposure to paraquat and parathion (i.e. down-regulation of mRNA expression of NF-68 and NF-200, NMDA and GABA (A) receptors). Similarly, dichlorvos affected mainly neurons (decreased mRNA expression of NF-68 and GABA (A) receptors) whereas cycloheximide had an effect on neurons and astrocytes, as significant decreases in the mRNA expression of both neurofilaments (NF-68 and NF-200) and the astrocyte marker (S100beta) were observed. Our results suggest that toxicity induced by pesticides that target multiple pathways of neurodevelopment can be identified by studying expression of genes that are involved in different stages of cell development and maturation, and that gene expression could be used as a sensitive endpoint for initial screening to identify the compounds with the potential to cause developmental neurotoxicity.
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