Nicotine abolishes memory‐related synaptic strengthening and promotes synaptic depression in the neurogenic dentate gyrus of miR‐132/212 knockout mice

Micro‐RNAs (miRNAs) are highly evolutionarily conserved short‐length/noncoding RNA molecules that modulate a wide range of cellular functions in many cell types by regulating the expression of a variety of targeted genes. miRNAs have also recently emerged as key regulators of neuronal genes mediating the effects of psychostimulant drugs and memory‐related neuroplasticity processes. Smoking is a predominant addictive behaviour associated with millions of deaths worldwide, and nicotine is a potent natural psychoactive agonist of cholinergic receptors, highly abundant in cigarettes. The influence of miRNAs modulation on cholinergic signalling in the nervous system remains however poorly explored. Using miRNA knockout mice and biochemical, electrophysiological and pharmacological approaches, we examined the effects of miR‐132/212 gene disruption on the levels of hippocampal nicotinic acetylcholine receptors, total ERK and phosphorylated ERK (pERK) and MeCP2 protein levels, and studied the impact of nicotine stimulation on hippocampal synaptic transmission and synaptic depression and strengthening. miR‐132/212 deletion significantly altered α7‐nAChR and pERK protein levels, but not total ERK or MeCP2, and resulted in both exacerbated synaptic depression and virtually abolished memory‐related synaptic strengthening upon nicotine stimulation. These observations reveal a functional miRNAs/nicotinergic signalling interplay critical for nicotinic‐receptor expression and neuroplasticity in brain structures relevant for drug addiction and learning and memory functions.
Micro‐RNAs are key regulators of neuronal genes mediating the effects of psychostimulant drugs and neuroplasticity. Using miRNA knockout mice and biochemical, electrophysiological and pharmacological approaches, this work describes that miR‐132/212 gene deletion alters molecular elements from the cholinergic signalling pathway (α7‐nAChR and pERK protein levels) and not only exacerbates synaptic depression but also virtually abolishes memory‐related synaptic strengthening upon nicotine stimulation.