PubMed 20422025
Referenced in: none
Automatically associated channels: TRP , TRPV , TRPV1
Title: Exploiting nanotechnologies and TRPV1 channels to investigate the putative anandamide membrane transporter.
Authors: Alessia Ligresti, Luciano De Petrocellis, Dolores Hernán Pérez de la Ossa, Rosario Aberturas, Luigia Cristino, Aniello Schiano Moriello, Andrea Finizio, M Esther Gil, Ana-Isabel Torres, Jesús Molpeceres, Vincenzo Di Marzo
Journal, date & volume: PLoS ONE, 2010 , 5, e10239
PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/20422025
Abstract
Considerable efforts have been made to characterize the pathways regulating the extracellular levels of the endocannabinoid anandamide. However, none of such pathways has been so argued as the existence of a carrier-mediated transport of anandamide across the membrane. Apart from the lack of molecular evidence for such a carrier, the main reasons of this controversy lie in the methodologies currently used to study anandamide cellular uptake. Furthermore, the main evidence in favor of the existence of an "anandamide transporter" relies on synthetic inhibitors of this process, the selectivity of which has been questioned.We used the cytosolic binding site for anandamide on TRPV1 channels as a biosensor to detect anandamide entry into cells, and exploited nanotechnologies to study anandamide membrane transport into intact TRPV1-overexpressing HEK-293 cells. Both fluorescence and digital holographic (DH) quantitative phase microscopy were used to study TRPV1 activation. Poly-epsilon-caprolactone nanoparticles (PCL-NPs) were used to incorporate anandamide, which could thus enter the cell and activate TRPV1 channels bypassing any possible specific protein(s) involved in the uptake process. We reasoned that in the absence of such protein(s), pharmacological tools previously shown to inhibit the "anandamide transporter" would affect in the same way the uptake of anandamide and PCL-NP-anandamide, and hence the activation of TRPV1. However, when masked into PCL-NPs, anandamide cellular uptake became much less sensitive to these agents, although it maintained the same pharmacokinetics and pharmacodynamics as that of "free" anandamide.We found here that several agents previously reported to inhibit anandamide cellular uptake lose their efficacy when anandamide is prevented from interacting directly with plasma membrane proteins, thus arguing in favor of the specificity of such agents for the putative "anandamide transporter", and of the existence of such mechanism.