INVESTIGADORES
BOUZAT Cecilia Beatriz
artículos
Título:
New insights into the structural bases of activation of Cys-loop receptors
Autor/es:
CECILIA BOUZAT
Revista:
JOURNAL OF PHYSIOLOGY (PARIS)
Editorial:
ELSEVIER SCI LTD
Referencias:
Lugar: Amsterdam; Año: 2012 vol. 106 p. 23 - 33
ISSN:
0928-4257
Resumen:
Neurotransmitter receptors of the Cys-loop superfamily mediate rapid synaptic transmission throughout
the nervous system, and include receptors activated by ACh, GABA, glycine and serotonin. They are
involved in physiological processes, including learning and memory, and in neurological disorders, and
they are targets for clinically relevant drugs. Cys-loop receptors assemble either from five copies of
one type of subunit, giving rise to homomeric receptors, or from several types of subunits, giving rise
to heteromeric receptors. Homomeric receptors are invaluable models for probing fundamental relationships
between structure and function. Receptors contain a large extracellular domain that carries the
binding sites and a transmembrane region that forms the ion pore. How the structural changes elicited
by agonist binding are propagated through a distance of 50 Å to the ion channel gate is central to understanding
receptor function. Depending on the receptor subtype, occupancy of either two, as in the prototype
muscle nicotinic receptor, or three binding sites, as in homomeric receptors, is required for full
activation. The conformational changes initiated at the binding sites are propagated to the gate through
the interface between the extracellular and transmembrane domains. This region forms a network that
relays structural changes from the binding site towards the pore, and also contributes to open channel
lifetime and rate of desensitization. Thus, this coupling region controls the beginning and duration of a
synaptic response. Here we review recent advances in the molecular mechanism by which Cys-loop
receptors are activated with particular emphasis on homomeric receptors