Evidence for a separate mechanism of toxicity for the Type I and the Type II pyrethroid insecticides

Neurotoxicity and mechanistic data were collected for six α-cyano pyrethroids (β-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and λ-cyhalothrin) and up to six non-cyano containing pyrethroids (bifenthrin, S-bioallethrin [or allethrin], permethrin, pyrethrins, resmethrin [or i...

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Published in:	Neurotoxicology (Park Forest South) Vol. 30; pp. S17 - S31
Main Authors:	Breckenridge, Charles B., Holden, Larry, Sturgess, Nicholas, Weiner, Myra, Sheets, Larry, Sargent, Dana, Soderlund, David M., Choi, Jin-Sung, Symington, Steve, Clark, J. Marshall, Burr, Steve, Ray, David
Format:	Journal Article
Language:	English
Published:	Netherlands Elsevier B.V 01-11-2009
Subjects:	Animals Brain - ultrastructure Calcium - metabolism Calcium ion Cell Line, Tumor Chloride ion channels Clustering Common mechanism Disease Models, Animal Factor analysis Factor Analysis, Statistical FOB Glutamic Acid - metabolism Insecticides - classification Insecticides - toxicity Ion Channel Gating - drug effects Ion Channels - classification Ion Channels - drug effects Membrane Potentials - drug effects Membrane Potentials - physiology Mice Neuroblastoma - pathology Neurotoxicity Syndromes - classification Neurotoxicity Syndromes - etiology Neurotoxicity Syndromes - physiopathology Oocytes Patch-Clamp Techniques Principal Component Analysis Principal components Pyrethrins - classification Pyrethrins - toxicity Pyrethroid Rats Sodium ion Synaptosomes - drug effects Synaptosomes - physiology Type I Type II Xenopus Pyrethroid Common mechanism Factor analysis Calcium ion Type I Sodium ion Type II FOB Chloride ion channels Clustering Principal components
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Abstract	Neurotoxicity and mechanistic data were collected for six α-cyano pyrethroids (β-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and λ-cyhalothrin) and up to six non-cyano containing pyrethroids (bifenthrin, S-bioallethrin [or allethrin], permethrin, pyrethrins, resmethrin [or its cis-isomer, cismethrin] and tefluthrin under standard conditions. Factor analysis and multivariate dissimilarity analysis were employed to evaluate four independent data sets comprised of (1) fifty-six behavioral and physiological parameters from an acute neurotoxicity functional observatory battery (FOB), (2) eight electrophysiological parameters from voltage clamp experiments conducted on the Na v1.8 sodium channel expressed in Xenopus oocytes, (3) indices of efficacy, potency and binding calculated for calcium ion influx across neuronal membranes, membrane depolarization and glutamate released from rat brain synaptosomes and (4) changes in chloride channel open state probability using a patch voltage clamp technique for membranes isolated from mouse neuroblastoma cells. The pyrethroids segregated into Type I (T-syndrome—tremors) and Type II (CS syndrome—choreoathetosis with salivation) groups based on FOB data. Of the α-cyano pyrethroids, deltamethrin, λ-cyhalothrin, cyfluthrin and cypermethrin arrayed themselves strongly in a dose-dependent manner along two factors that characterize the CS syndrome. Esfenvalerate and fenpropathrin displayed weaker response profiles compared to the non-cyano pyrethroids. Visual clustering on multidimensional scaling (MDS) maps based upon sodium ion channel and calcium influx and glutamate release dissimilarities gave similar groupings. The non-cyano containing pyrethroids were arrayed in a dose-dependent manner along two different factors that characterize the T-syndrome. Bifenthrin was an outlier when MDS maps of the non-cyano pyrethroids were based on sodium ion channel characteristics and permethrin was an outlier when the MDS maps were based on calcium influx/glutamate release potency. Four of six α-cyano pyrethroids (λ-cyfluthrin, cypermethrin, deltamethrin and fenpropathrin) reduced open chloride channel probability. The R-isomers of λ-l-cyhalothrin reduced open channel probability whereas the S-isomers, antagonized the action of the R-isomers. None of the non-cyano pyrethroids reduced open channel probability, except bioallethrin, which gave a weak response. Overall, based upon neurotoxicity data and the effect of pyrethroids on sodium, calcium and chloride ion channels, it is proposed that bioallethrin, cismethrin, tefluthrin, bifenthrin and permethrin belong to one common mechanism group and deltamethrin, λ-cyhalothrin, cyfluthrin and cypermethrin belong to a second. Fenpropathrin and esfenvalerate occupy an intermediate position between these two groups.
AbstractList	Neurotoxicity and mechanistic data were collected for six alpha-cyano pyrethroids (beta-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and lambda-cyhalothrin) and up to six non-cyano containing pyrethroids (bifenthrin, S-bioallethrin [or allethrin], permethrin, pyrethrins, resmethrin [or its cis-isomer, cismethrin] and tefluthrin under standard conditions. Factor analysis and multivariate dissimilarity analysis were employed to evaluate four independent data sets comprised of (1) fifty-six behavioral and physiological parameters from an acute neurotoxicity functional observatory battery (FOB), (2) eight electrophysiological parameters from voltage clamp experiments conducted on the Na(v)1.8 sodium channel expressed in Xenopus oocytes, (3) indices of efficacy, potency and binding calculated for calcium ion influx across neuronal membranes, membrane depolarization and glutamate released from rat brain synaptosomes and (4) changes in chloride channel open state probability using a patch voltage clamp technique for membranes isolated from mouse neuroblastoma cells. The pyrethroids segregated into Type I (T--syndrome-tremors) and Type II (CS syndrome--choreoathetosis with salivation) groups based on FOB data. Of the alpha-cyano pyrethroids, deltamethrin, lambda-cyhalothrin, cyfluthrin and cypermethrin arrayed themselves strongly in a dose-dependent manner along two factors that characterize the CS syndrome. Esfenvalerate and fenpropathrin displayed weaker response profiles compared to the non-cyano pyrethroids. Visual clustering on multidimensional scaling (MDS) maps based upon sodium ion channel and calcium influx and glutamate release dissimilarities gave similar groupings. The non-cyano containing pyrethroids were arrayed in a dose-dependent manner along two different factors that characterize the T-syndrome. Bifenthrin was an outlier when MDS maps of the non-cyano pyrethroids were based on sodium ion channel characteristics and permethrin was an outlier when the MDS maps were based on calcium influx/glutamate release potency. Four of six alpha-cyano pyrethroids (lambda-cyfluthrin, cypermethrin, deltamethrin and fenpropathrin) reduced open chloride channel probability. The R-isomers of lambda-l-cyhalothrin reduced open channel probability whereas the S-isomers, antagonized the action of the R-isomers. None of the non-cyano pyrethroids reduced open channel probability, except bioallethrin, which gave a weak response. Overall, based upon neurotoxicity data and the effect of pyrethroids on sodium, calcium and chloride ion channels, it is proposed that bioallethrin, cismethrin, tefluthrin, bifenthrin and permethrin belong to one common mechanism group and deltamethrin, lambda-cyhalothrin, cyfluthrin and cypermethrin belong to a second. Fenpropathrin and esfenvalerate occupy an intermediate position between these two groups. Neurotoxicity and mechanistic data were collected for six a-cyano pyrethroids (b-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and I'-cyhalothrin) and up to six non-cyano containing pyrethroids (bifenthrin, S-bioallethrin [or allethrin], permethrin, pyrethrins, resmethrin [or its cis-isomer, cismethrin] and tefluthrin under standard conditions. Factor analysis and multivariate dissimilarity analysis were employed to evaluate four independent data sets comprised of (1) fifty-six behavioral and physiological parameters from an acute neurotoxicity functional observatory battery (FOB), (2) eight electrophysiological parameters from voltage clamp experiments conducted on the Nav1.8 sodium channel expressed in Xenopus oocytes, (3) indices of efficacy, potency and binding calculated for calcium ion influx across neuronal membranes, membrane depolarization and glutamate released from rat brain synaptosomes and (4) changes in chloride channel open state probability using a patch voltage clamp technique for membranes isolated from mouse neuroblastoma cells. The pyrethroids segregated into Type I (T-syndrome--tremors) and Type II (CS syndrome--choreoathetosis with salivation) groups based on FOB data. Of the a-cyano pyrethroids, deltamethrin, I'-cyhalothrin, cyfluthrin and cypermethrin arrayed themselves strongly in a dose-dependent manner along two factors that characterize the CS syndrome. Esfenvalerate and fenpropathrin displayed weaker response profiles compared to the non-cyano pyrethroids. Visual clustering on multidimensional scaling (MDS) maps based upon sodium ion channel and calcium influx and glutamate release dissimilarities gave similar groupings. The non-cyano containing pyrethroids were arrayed in a dose-dependent manner along two different factors that characterize the T-syndrome. Bifenthrin was an outlier when MDS maps of the non-cyano pyrethroids were based on sodium ion channel characteristics and permethrin was an outlier when the MDS maps were based on calcium influx/glutamate release potency. Four of six a-cyano pyrethroids (I'-cyfluthrin, cypermethrin, deltamethrin and fenpropathrin) reduced open chloride channel probability. The R-isomers of I'-l-cyhalothrin reduced open channel probability whereas the S-isomers, antagonized the action of the R-isomers. None of the non-cyano pyrethroids reduced open channel probability, except bioallethrin, which gave a weak response. Overall, based upon neurotoxicity data and the effect of pyrethroids on sodium, calcium and chloride ion channels, it is proposed that bioallethrin, cismethrin, tefluthrin, bifenthrin and permethrin belong to one common mechanism group and deltamethrin, I'-cyhalothrin, cyfluthrin and cypermethrin belong to a second. Fenpropathrin and esfenvalerate occupy an intermediate position between these two groups. Neurotoxicity and mechanistic data were collected for six α-cyano pyrethroids (β-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and λ-cyhalothrin) and up to six non-cyano containing pyrethroids (bifenthrin, S-bioallethrin [or allethrin], permethrin, pyrethrins, resmethrin [or its cis-isomer, cismethrin] and tefluthrin under standard conditions. Factor analysis and multivariate dissimilarity analysis were employed to evaluate four independent data sets comprised of (1) fifty-six behavioral and physiological parameters from an acute neurotoxicity functional observatory battery (FOB), (2) eight electrophysiological parameters from voltage clamp experiments conducted on the Na v1.8 sodium channel expressed in Xenopus oocytes, (3) indices of efficacy, potency and binding calculated for calcium ion influx across neuronal membranes, membrane depolarization and glutamate released from rat brain synaptosomes and (4) changes in chloride channel open state probability using a patch voltage clamp technique for membranes isolated from mouse neuroblastoma cells. The pyrethroids segregated into Type I (T-syndrome—tremors) and Type II (CS syndrome—choreoathetosis with salivation) groups based on FOB data. Of the α-cyano pyrethroids, deltamethrin, λ-cyhalothrin, cyfluthrin and cypermethrin arrayed themselves strongly in a dose-dependent manner along two factors that characterize the CS syndrome. Esfenvalerate and fenpropathrin displayed weaker response profiles compared to the non-cyano pyrethroids. Visual clustering on multidimensional scaling (MDS) maps based upon sodium ion channel and calcium influx and glutamate release dissimilarities gave similar groupings. The non-cyano containing pyrethroids were arrayed in a dose-dependent manner along two different factors that characterize the T-syndrome. Bifenthrin was an outlier when MDS maps of the non-cyano pyrethroids were based on sodium ion channel characteristics and permethrin was an outlier when the MDS maps were based on calcium influx/glutamate release potency. Four of six α-cyano pyrethroids (λ-cyfluthrin, cypermethrin, deltamethrin and fenpropathrin) reduced open chloride channel probability. The R-isomers of λ-l-cyhalothrin reduced open channel probability whereas the S-isomers, antagonized the action of the R-isomers. None of the non-cyano pyrethroids reduced open channel probability, except bioallethrin, which gave a weak response. Overall, based upon neurotoxicity data and the effect of pyrethroids on sodium, calcium and chloride ion channels, it is proposed that bioallethrin, cismethrin, tefluthrin, bifenthrin and permethrin belong to one common mechanism group and deltamethrin, λ-cyhalothrin, cyfluthrin and cypermethrin belong to a second. Fenpropathrin and esfenvalerate occupy an intermediate position between these two groups.
Author	Sheets, Larry Soderlund, David M. Weiner, Myra Sargent, Dana Burr, Steve Symington, Steve Breckenridge, Charles B. Clark, J. Marshall Ray, David Holden, Larry Sturgess, Nicholas Choi, Jin-Sung
Author_xml	– sequence: 1 givenname: Charles B. surname: Breckenridge fullname: Breckenridge, Charles B. email: Charles.Breckenridge@syngenta.com organization: Syngenta Crop Protection Inc., P.O. Box 18300, Greensboro, NC 27419-8300, USA – sequence: 2 givenname: Larry surname: Holden fullname: Holden, Larry organization: Sielken and Associates Consulting, Inc., Bryan, TX 77802, USA – sequence: 3 givenname: Nicholas surname: Sturgess fullname: Sturgess, Nicholas organization: Syngenta Ltd., Jealott's Hill International Research Centre, Bracknell, Berks. RG42 7EY, UK – sequence: 4 givenname: Myra surname: Weiner fullname: Weiner, Myra organization: TOXpertise, LLC, 100 Jackson Avenue, Princeton, NJ 08540, USA – sequence: 5 givenname: Larry surname: Sheets fullname: Sheets, Larry organization: Bayer Crop Science, LP. Research Triangle Park, NC 27709, USA – sequence: 6 givenname: Dana surname: Sargent fullname: Sargent, Dana organization: Bayer Crop Science, LP. Research Triangle Park, NC 27709, USA – sequence: 7 givenname: David M. surname: Soderlund fullname: Soderlund, David M. organization: Dept. of Entomology, New York State Agricultural Experiment Station, Cornell University, Geneva, NY 14456, USA – sequence: 8 givenname: Jin-Sung surname: Choi fullname: Choi, Jin-Sung organization: Dept. of Neurology, Yale School of Medicine, New Haven, CT 06510, USA – sequence: 9 givenname: Steve surname: Symington fullname: Symington, Steve organization: Dept. of Biology and Biomedical Sciences, Salve Regina University, RI 02840, USA – sequence: 10 givenname: J. Marshall surname: Clark fullname: Clark, J. Marshall organization: Dept. of Veterinary and Animal Science, Univ. of Massachusetts, Amherst, MA 01003, USA – sequence: 11 givenname: Steve surname: Burr fullname: Burr, Steve organization: School of Biomedical Sciences, Univ. of Nottingham, Nottingham NG7 2UH, UK – sequence: 12 givenname: David surname: Ray fullname: Ray, David organization: School of Biomedical Sciences, Univ. of Nottingham, Nottingham NG7 2UH, UK
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/19766671$$D View this record in MEDLINE/PubMed
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ISSN	0161-813X
IngestDate	Sat Oct 26 00:44:04 EDT 2024 Thu Sep 26 18:15:35 EDT 2024 Sat Sep 28 07:48:50 EDT 2024 Fri Feb 23 02:32:16 EST 2024
IsPeerReviewed	true
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Keywords	Pyrethroid Common mechanism Factor analysis Calcium ion Type I Sodium ion Type II FOB Chloride ion channels Clustering Principal components
Language	English
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PMID	19766671
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ParticipantIDs	proquest_miscellaneous_744612109 crossref_primary_10_1016_j_neuro_2009_09_002 pubmed_primary_19766671 elsevier_sciencedirect_doi_10_1016_j_neuro_2009_09_002
PublicationCentury	2000
PublicationDate	2009-11-01
PublicationDateYYYYMMDD	2009-11-01
PublicationDate_xml	– month: 11 year: 2009 text: 2009-11-01 day: 01
PublicationDecade	2000
PublicationPlace	Netherlands
PublicationPlace_xml	– name: Netherlands
PublicationTitle	Neurotoxicology (Park Forest South)
PublicationTitleAlternate	Neurotoxicology
PublicationYear	2009
Publisher	Elsevier B.V
Publisher_xml	– name: Elsevier B.V
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Snippet	Neurotoxicity and mechanistic data were collected for six α-cyano pyrethroids (β-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and... Neurotoxicity and mechanistic data were collected for six alpha-cyano pyrethroids (beta-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin... Neurotoxicity and mechanistic data were collected for six a-cyano pyrethroids (b-cyfluthrin, cypermethrin, deltamethrin, esfenvalerate, fenpropathrin and...
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SubjectTerms	Animals Brain - ultrastructure Calcium - metabolism Calcium ion Cell Line, Tumor Chloride ion channels Clustering Common mechanism Disease Models, Animal Factor analysis Factor Analysis, Statistical FOB Glutamic Acid - metabolism Insecticides - classification Insecticides - toxicity Ion Channel Gating - drug effects Ion Channels - classification Ion Channels - drug effects Membrane Potentials - drug effects Membrane Potentials - physiology Mice Neuroblastoma - pathology Neurotoxicity Syndromes - classification Neurotoxicity Syndromes - etiology Neurotoxicity Syndromes - physiopathology Oocytes Patch-Clamp Techniques Principal Component Analysis Principal components Pyrethrins - classification Pyrethrins - toxicity Pyrethroid Rats Sodium ion Synaptosomes - drug effects Synaptosomes - physiology Type I Type II Xenopus
Title	Evidence for a separate mechanism of toxicity for the Type I and the Type II pyrethroid insecticides
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