In the hippocampus, at excitatory synapses between principal cell and oriens/alveus (O/A) interneurons, a particular form of NMDAindependent long-term synaptic plasticity (LTP) has been described (Lamsa et al., 2007). This type of LTP occurs when presynaptic activation coincides with postsynaptic hyperpolarization. For this reason it has been named "anti-Hebbian" to distinguish from the classical Hebbian type of associative learning where presynaptic glutamate release coincides with postsynaptic depolarization. The different voltage dependency of LTP induction is thought to be mediated by calcium-permeable (CP) AMPA receptors that, due to polyamine-mediated rectification, favor calcium entry at hyperpolarized potentials. Here, we report that the induction of this form of LTP needs CP-α7 nicotinic acetylcholine receptors (nAChRs) that, like CP-AMPARs, exhibit a strong inward rectification because of polyamine block at depolarizing potentials. We found that high-frequency stimulation of afferent fibers elicits synaptic currents mediated by α7 nAChRs. Hence, LTP was prevented by α7 nAChR antagonists dihydro-β-erythroidine and methyllycaconitine (MLA) and was absent in α7 -/- mice. In addition, in agreement with previous observations (Le Duigou and Kullmann, 2011), in a minority of O/A interneuronsin MLA-treated hippocampal slices from WT animals and α7 -/- mice, a form of LTP probably dependent on the activation of group I metabotropic glutamate receptors was observed. These data indicate that, in O/A interneurons, anti-Hebbian LTP critically depends on cholinergic signaling via α7 nAChR. This may influence network oscillations and information processing. © 2013 the authors.

In hippocampal oriens interneurons anti-Hebbian Long-Term Potentiation requires cholinergic signalling via alpha 7 nicotinic acetylcholine receptors / Griguoli, M; Cellot, G; Cherubini, Enrico. - In: THE JOURNAL OF NEUROSCIENCE. - ISSN 0270-6474. - 33:3(2013), pp. 1044-1049. [10.1523/JNEUROSCI.1070-12.2013]

In hippocampal oriens interneurons anti-Hebbian Long-Term Potentiation requires cholinergic signalling via alpha 7 nicotinic acetylcholine receptors

Cellot G;Cherubini, Enrico
2013

Abstract

In the hippocampus, at excitatory synapses between principal cell and oriens/alveus (O/A) interneurons, a particular form of NMDAindependent long-term synaptic plasticity (LTP) has been described (Lamsa et al., 2007). This type of LTP occurs when presynaptic activation coincides with postsynaptic hyperpolarization. For this reason it has been named "anti-Hebbian" to distinguish from the classical Hebbian type of associative learning where presynaptic glutamate release coincides with postsynaptic depolarization. The different voltage dependency of LTP induction is thought to be mediated by calcium-permeable (CP) AMPA receptors that, due to polyamine-mediated rectification, favor calcium entry at hyperpolarized potentials. Here, we report that the induction of this form of LTP needs CP-α7 nicotinic acetylcholine receptors (nAChRs) that, like CP-AMPARs, exhibit a strong inward rectification because of polyamine block at depolarizing potentials. We found that high-frequency stimulation of afferent fibers elicits synaptic currents mediated by α7 nAChRs. Hence, LTP was prevented by α7 nAChR antagonists dihydro-β-erythroidine and methyllycaconitine (MLA) and was absent in α7 -/- mice. In addition, in agreement with previous observations (Le Duigou and Kullmann, 2011), in a minority of O/A interneuronsin MLA-treated hippocampal slices from WT animals and α7 -/- mice, a form of LTP probably dependent on the activation of group I metabotropic glutamate receptors was observed. These data indicate that, in O/A interneurons, anti-Hebbian LTP critically depends on cholinergic signaling via α7 nAChR. This may influence network oscillations and information processing. © 2013 the authors.
33
3
1044
1049
10.1523/JNEUROSCI.1070-12.2013
Griguoli, M; Cellot, G; Cherubini, Enrico
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/20.500.11767/30006
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