TY - JOUR T1 - Plasma Protein and Lipoprotein Binding of <em>Cis</em>- and <em>Trans</em>-Permethrin and Deltamethrin in Adult Humans and Rats JF - Drug Metabolism and Disposition JO - Drug Metab Dispos SP - 941 LP - 948 DO - 10.1124/dmd.118.085464 VL - 47 IS - 9 AU - Pankaj Sethi AU - James V. Bruckner AU - Tanzir B. Mortuza AU - Brian S. Cummings AU - Srinivasa Muralidhara AU - Catherine A. White Y1 - 2019/09/01 UR - http://dmd.aspetjournals.org/content/47/9/941.abstract N2 - The majority of residents of the United States, Canada, and Europe are exposed to pyrethroids, the most commonly used class of insecticides. Surprisingly little is known about key aspects of their pharmacokinetics, including their mode of transport in the systemic circulation. This study tested the hypothesis that pyrethroids are transported by both plasma lipoproteins and proteins, similarly to other highly lipophilic environmental contaminants. Other aims were to characterize the binding of representative type I and II pyrethroids, and to compare their binding to rat versus human plasma. Binding of 14C-labeled cis-permethrin (CIS), trans-permethrin (TRANS) and deltamethrin (DLM) to proteins and lipoproteins was measured by sequential extraction of spiked plasma with isooctane, 2-octanol, and acetonitrile. Binding of DLM, CIS, and TRANS to plasma proteins and lipoproteins was linear from 250 to 750 nM; concentrations present in the plasma of orally dosed rats. Binding of DLM to high-density lipoprotein was twice that to low-density lipoprotein. Binding of DLM, CIS, and TRANS was ∼2-fold greater to proteins than to lipoproteins of rat and human plasma; albumin was primarily responsible for protein binding. Higher total binding of each pyrethroid to human (∼90%) than to rat (∼80%) plasma resulted from higher protein binding in human plasma. This was attributable in part to the higher albumin/protein content of human plasma. Rat albumin exhibited lower pyrethroid binding capacity than did human albumin. The results of this investigation indicate that albumin and lipoproteins play a major role in binding and transport of pyrethroids in the systemic circulation of both rats and humans. ER -