Presynaptic nicotinic receptors modulating neurotransmitter release in the Central Nervous System: Functional interactions with other coexisting receptors
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Abstract
The cross-talk between receptors represents an important mechanism of neurotransmission
modulation and plasticity. It can occur by direct physical interactions as in the
case of G protein-coupled receptor heterodimerization, or it may involve intracellular
pathways. The facilitatory or inhibitory action of one receptor might therefore depend
on the function of the other receptors coexisting on the neuron. Recent studies have
shown that this phenomenon also concerns the nicotinic receptor subtypes. This review
will focus on the coexistence and the functional interaction between the release regulating
presynaptic nAChR and other receptors coexisting on the same axon terminals. Presynaptic
nicotinic acetylcholine receptors in the Central Nervous System may interact with
other metabotropic or ionotropic receptors producing an integrated response which,
in turn, generates antagonistic or synergistic effects. The understanding of these
interactions may allow a better evaluation not only of the pharmacological effects
of nicotine, but also of the normal physiological role of the natural neurotransmitter
acetylcholine.
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