State-Dependent Modification of Voltage-Gated Sodium Channels by Pyrethroids.

Pesticide Biochemistry and Physiology
David M Soderlund

Abstract

Pyrethroids disrupt nerve function by altering the rapid kinetic transitions between conducting and nonconducting states of voltage-gated sodium channels that underlie the generation of nerve action potentials. Recent studies of pyrethroid action on cloned insect and mammalian sodium channel isoforms expressed in Xenopus laevis oocytes show that in some cases pyrethroid modification is either absolutely dependent on or significantly enhanced by repeated channel activation. These use-dependent effects have been interpreted as evidence of preferential binding of at least some pyrethroids to the open, rather than resting, state of the sodium channel. This paper reviews the evidence for state-dependent modification of insect and mammalian sodium channels expressed in oocytes by pyrethroids and considers the implications of state-dependent effects for understanding the molecular mechanism of pyrethroid action and the development and testing of models of the pyrethroid receptor.

References

Jun 1, 1992·Trends in Pharmacological Sciences·T Narahashi
Jul 3, 1992·Brain Research·L D Brown, T Narahashi
Jan 1, 1983·Cold Spring Harbor Symposia on Quantitative Biology·J A TalvenheimoW A Catterall
Jul 1, 1996·Pharmacology & Toxicology·T Narahashi
Feb 25, 1998·Insect Biochemistry and Molecular Biology·T J SmithD M Soderlund
Dec 21, 2000·The European Journal of Neuroscience·Y H ChenJ J Clare
Jan 29, 2002·Toxicology·David M SoderlundMyra L Weiner
Jul 10, 2003·Current Opinion in Neurobiology·Alan L Goldin
Jan 26, 2005·Current Biology : CB·Zara SandsMark S P Sansom
Apr 9, 2005·IEEE Transactions on Nanobioscience·Francisco Bezanilla
Jul 21, 2005·The European Journal of Neuroscience·R ThimmapayaV E Scott
Sep 27, 2005·Physiological Reviews·Werner Ulbricht
Dec 6, 2005·Biochemical and Biophysical Research Communications·Christian DerstStefan H Heinemann
Feb 14, 2006·Current Pharmaceutical Design·K YamaokaI Seyama
Feb 16, 2006·The Biochemical Journal·Andrias O O'ReillyT G Emyr Davies
Jun 6, 2006·European Journal of Pharmacology·Luz CandenasFrancisco M Pinto
Jun 10, 2008·Toxicology and Applied Pharmacology·Connie A MeachamTimothy J Shafer

❮ Previous
Next ❯

Citations

Jun 29, 2011·Archives of Toxicology·David M Soderlund
Jul 4, 2013·Proceedings of the National Academy of Sciences of the United States of America·Yuzhe DuKe Dong
Apr 16, 2014·Toxicology and Applied Pharmacology·Thomas J Nutter, Brian Y Cooper
Mar 22, 2014·Drug and Chemical Toxicology·DeQing CaoLi An
Mar 17, 2012·Journal of Economic Entomology·Jerome J Schleier, Robert K D Peterson
May 12, 2012·Pesticide Biochemistry and Physiology·Jianguo TanDavid M Soderlund
Oct 4, 2011·Pesticide Biochemistry and Physiology·Jianguo Tan, David M Soderlund
Feb 18, 2015·Neurotoxicology·Frank D RinkevichKe Dong
Jul 24, 2015·Scientific Reports·Pascal Gosselin-BadaroudineMohamed Chahine
Feb 15, 2018·Journal of Economic Entomology·Alyssa M PiccolominiRobert K D Peterson
Sep 5, 2012·ChemMedChem·Antonio NardiAchim Kless
Mar 31, 2017·FASEB Journal : Official Publication of the Federation of American Societies for Experimental Biology·Pascal Gosselin-Badaroudine, Mohamed Chahine
Mar 21, 2018·Environmental Science and Pollution Research International·Fernanda Dos Santos CunhaRodrigo Yudi Fujimoto
Jul 3, 2021·Animals : an Open Access Journal From MDPI·Mayada R FaragMohammed A E Naiel

❮ Previous
Next ❯

Related Concepts

Related Feeds

Alternative splicing

Alternative splicing a regulated gene expression process that allows a single genetic sequence to code for multiple proteins. Here is that latest research.