Structural model, functional modulation by ivermectin and tissue localization of Haemonchus contortus P-glycoprotein-13

Publication date: April 2018Source: International Journal for Parasitology: Drugs and Drug Resistance, Volume 8, Issue 1Author(s): Marion David, Chantal Lebrun, Thomas Duguet, Franck Talmont, Robin Beech, Stéphane Orlowski, François André, Roger K. Prichard, Anne LespineAbstractHaemonchus contortus, one of the most economically important parasites of small ruminants, has become resistant to the anthelmintic ivermectin. Deciphering the role of P-glycoproteins in ivermectin resistance is desirable for understanding and overcoming this resistance. In the model nematode, Caenorhabditis elegans, P-glycoprotein-13 is expressed in the amphids, important neuronal structures for ivermectin activity. We have focused on its ortholog in the parasite, Hco-Pgp-13. A 3D model of Hco-Pgp-13, presenting an open inward-facing conformation, has been constructed by homology with the Cel-Pgp-1 crystal structure. In silico docking calculations predicted high affinity binding of ivermectin and actinomycin D to the inner chamber of the protein. Following in vitro expression, we showed that ivermectin and actinomycin D modulated Hco-Pgp-13 ATPase activity with high affinity. Finally, we found in vivo Hco-Pgp-13 localization in epithelial, pharyngeal and neuronal tissues. Taken together, these data suggest a role for Hco-Pgp-13 in ivermectin transport, which could contribute to anthelmintic resistance.Graphical abstract
Source: International Journal for Parasitology: Drugs and Drug Resistance - Category: Parasitology Source Type: research