Chronic nicotine exposure gives rise to neural adaptations that change whole cell physiology and behaviour mainly by interacting with neuronal nicotinic acetylcholine receptors (nAChRs). The major nicotine-induced neuroadaptation is the up-regulation of brain nAChRs by means of cell-delimited post-translational mechanisms. We review what is known of the processes regulating nAChR assembly, degradation and trafficking, and how nicotine-induced modulation of these processes leads to nAChR up-regulation and changes in downstream neuronal plasticity at molecular, cellular and circuit level.
Keywords: ER associated degradation; Nicotine; Nicotinic receptors; Receptor assembly; Receptor trafficking; Receptor up-regulation.
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