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- Title
Avermectin transepithelial transport in MDR1- and MRP-transfected canine kidney monolayers.
- Authors
David Brayden; Joanna Griffin
- Abstract
Abstract  Fluxes of the anti-parasitic agents, [3H]-ivermectin, [3H]-selamectin and [3H]-moxidectin were studied across non-transfected and transfected canine kidney epithelial monolayers, MDCK II/wt, MDCK II-MDR1, MDCK II-MRP1 and MDCK II-MRP2. All four lines surprisingly expressed significant levels of P-glycoprotein (P-gp), coded for by MDR1, but MDCK II-MDR1 expressed increased levels compared to the other lines. MDCK II-MRP1 and MDCK II-MRP2 expressed increased levels of MRP1 and MRP2 respectively. Fluxes of [3H]-ivermectin, [3H]-selamectin, [3H]-moxidectin, and the P-gp substrates, rhodamine-123 and DiOC2, were polarized in the basolateral-to-apical (secretory) direction across the four lines. Selected MRP inhibitors used in relevant pharmacological concentrations did not block the secretory fluxes of either [3H]-ivermectin or [3H]-selamectin in either the non-transfected or MRP-transfected lines. In contrast, secretory fluxes of ivermectin and selamectin were inhibited in all four lines by the P-gp inhibitor, verapamil. These data confirm that ivermectin and selamectin are substrates for P-gp in four additional cell lines, but suggest that they are not significant substrates for MRP1 or MRP2 where there is background expression of P-gp. Since this pattern of expression also pertains on the blood-brain barrier, it is unlikely that MRP1 and MRP2 play a significant role in ivermectin and selamectin blood: brain distribution in vivo.
- Subjects
IVERMECTIN; AVERMECTINS; MONOMOLECULAR films; BLOOD
- Publication
Veterinary Research Communications, 2008, Vol 32, Issue 1, p93
- ISSN
0165-7380
- Publication type
Article
- DOI
10.1007/s11259-007-9007-9