Ilouz_1999_J.Biol.Chem_274_29519

Reference

Title : Depolarization affects the binding properties of muscarinic acetylcholine receptors and their interaction with proteins of the exocytic apparatus - Ilouz_1999_J.Biol.Chem_274_29519
Author(s) : Ilouz N , Branski L , Parnis J , Parnas H , Linial M
Ref : Journal of Biological Chemistry , 274 :29519 , 1999
Abstract :

Membrane depolarization is the signal that triggers release of neurotransmitter from nerve terminals. As a result of depolarization, voltage-dependent Ca(2+) channels open, level of intracellular Ca(2+) increases. and release of neurotransmitter commences. Previous study had shown that in rat brain synaptosomes, muscarinic acetylcholine (ACh) receptors (mAChRs) interact with soluble NSF attachment protein receptor proteins of the exocytic machinery in a voltage-dependent manner. It was suggested that this interaction might control the rapid, synchronous release of acetylcholine. The present study investigates the mechanism for such a voltage-dependent interaction. Here we show that depolarization shifts mAChRs, specifically the m2 receptor subtype, to a low affinity state toward its agonists. At resting potential, mAChRs are in a high affinity state (K(d) of approximately 20 nM) and they shift to a low affinity state (K(d) of tens of microM) upon membrane depolarization. In addition, interaction between m2 receptor subtype and the exocytic machinery increases with receptor occupancy. Both phenomena are independent of Ca(2+) influx. We propose that these results may explain control of ACh release from nerve terminals. At resting potential the exocytic machinery is clamped due to its interaction with the occupied mAChR and depolarization relieves this interaction. This, together with Ca(2+) influx, enables release of ACh to commence.

PubMedSearch : Ilouz_1999_J.Biol.Chem_274_29519
PubMedID: 10506217

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Citations formats

Ilouz N, Branski L, Parnis J, Parnas H, Linial M (1999)
Depolarization affects the binding properties of muscarinic acetylcholine receptors and their interaction with proteins of the exocytic apparatus
Journal of Biological Chemistry 274 :29519

Ilouz N, Branski L, Parnis J, Parnas H, Linial M (1999)
Journal of Biological Chemistry 274 :29519