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Rapid constitutive and ligand‐activated endocytic trafficking of P2X 3 receptor
Author(s) -
Vacca Fabrizio,
Giustizieri Michela,
Ciotti Maria Teresa,
Mercuri Nicola Biagio,
Volonté Cinzia
Publication year - 2009
Publication title -
journal of neurochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.75
H-Index - 229
eISSN - 1471-4159
pISSN - 0022-3042
DOI - 10.1111/j.1471-4159.2009.06029.x
Subject(s) - microbiology and biotechnology , endocytosis , receptor , endosome , dorsal root ganglion , endocytic cycle , biology , neurotransmission , neuroscience , intracellular , biochemistry , sensory system
Abstract P2X receptors mediate a variety of physiological actions, including smooth muscle contraction, neuro‐endocrine secretion and synaptic transmission. Among P2X receptors, the P2X 3 subtype is expressed in sensory neurons of dorsal root‐ and trigeminal‐ganglia, where it performs a well‐recognized role in sensory and pain transmission. Recent evidence indicates that the strength of P2X 3 ‐mediated responses is modulated in vivo by altering the number of receptors at the plasma membrane. In the present study, we investigate the trafficking properties of P2X 3 receptor in transfected HEK293 cells and in primary cultures of dorsal root ganglion neurons, finding that P2X 3 receptor undergoes rapid constitutive and cholesterol‐dependent endocytosis. We also show that endocytosis is accompanied by preferential targeting of the receptor to late endosomes/lysosomes, with subsequent degradation. Furthermore, we observe that at steady state the receptor localizes predominantly in lamp1‐positive intracellular structures, with a minor fraction present at the plasma membrane. Finally, the level of functional receptor expressed on the cell surface is rapidly up‐regulated in response to agonist stimulation, which also augments receptor endocytosis. The findings presented in this work underscore a very dynamic trafficking behavior of P2X 3 receptor and disclose a possible mechanism for the rapid modulation of ATP‐mediated responses potentially relevant during physiological and pathological conditions.

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