The Common Insecticides Cyfluthrin and Chlorpyrifos Alter the Expression of a Subset of Genes with Diverse Functions in Primary Human Astrocytes

doi:10.1093/toxsci/kfl046

ToxSci Advance Access originally published online on June 21, 2006
Toxicological Sciences 2006 93(1):125-135; doi:10.1093/toxsci/kfl046

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The Common Insecticides Cyfluthrin and Chlorpyrifos Alter the Expression of a Subset of Genes with Diverse Functions in Primary Human Astrocytes

Sarah M. Mense^*, Amitabha Sengupta^*, Changgui Lan^*, Mei Zhou^*, Galina Bentsman, David J. Volsky, Robin M. Whyatt^*, Frederica P. Perera^* and Li Zhang^*^,1

^* Department of Environmental Health Sciences, Columbia University, Mailman School of Public Health, New York, New York 10032; and Molecular Virology Division, St Luke's–Roosevelt Hospital Center and College of Physicians and Surgeons, Columbia University, New York, New York 10019

Received April 14, 2006; accepted June 2, 2006

Given the widespread use of insecticides in the environment,it is important to perform studies evaluating their potentialeffects on humans. Organophosphate insecticides, such as chlorpyrifos,are being phased out; however, the use of pyrethroids in householdpest control is increasing. While chlorpyrifos is relativelywell studied, much less is known about the potential neurotoxicityof cyfluthrin and other pyrethroids. To gain insights into theneurotoxicity of cyfluthrin, we compared and evaluated the toxicityprofiles of chlorpyrifos and cyfluthrin in primary human fetalastrocytes. We found that at the same concentrations, cyfluthrinexerts as great as, or greater toxic effects on the growth,survival, and proper functioning of human astrocytes. By usingmicroarray gene expression profiling, we systematically identifiedand compared the potential molecular targets of chlorpyrifosand cyfluthrin, at a genome-wide scale. We found that chlorpyrifosand cyfluthrin affect a similar number of transcripts. Thesetargets include molecular chaperones, signal transducers, transcriptionalregulators, transporters, and those involved in behavior anddevelopment. Further computational and biochemical analysesshow that cyfluthrin and chlorpyrifos upregulate certain targetsof the interferon- ${gamma}$ and insulin-signaling pathways and that theyincrease the protein levels of activated extracellular signal–regulatedkinase 1/2, a key component of insulin signaling; interleukin6, a key inflammatory mediator; and glial fibrillary acidicprotein, a marker of inflammatory astrocyte activation. Theseresults suggest that inflammatory activation of astrocytes mightbe an important mechanism underlying neurotoxicity of both chlorpyrifosand cyfluthrin.

Key Words: chlorpyrifos; cyfluthrin; neurotoxicity; human astrocytes; inflammatory; microarray expression analysis.

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