2023
DOI: 10.1007/7854_2022_412
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Synaptic Effects Induced by Alcohol

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Cited by 8 publications
(9 citation statements)
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“…Moreover, we found increased frequency and amplitude of asynchronous IPSCs at DLS-SNr synapses indicating an increased strength of DLS-SNr inputs. Our findings imply the presence of a postsynaptic mechanism which potentiates DLS-SNr inputs via an increased number of GABAergic synapses, an increased availability of GABAA receptors, or changes in channel conductance due to modifications in their subunit composition 3,4 . In parallel, compensatory presynaptic changes might explain the increase in PPR at DLS-SNr inputs, including altered GPCR signaling.…”
Section: Differential Synaptic Organization Of Inputs To the Medial A...mentioning
confidence: 77%
“…Moreover, we found increased frequency and amplitude of asynchronous IPSCs at DLS-SNr synapses indicating an increased strength of DLS-SNr inputs. Our findings imply the presence of a postsynaptic mechanism which potentiates DLS-SNr inputs via an increased number of GABAergic synapses, an increased availability of GABAA receptors, or changes in channel conductance due to modifications in their subunit composition 3,4 . In parallel, compensatory presynaptic changes might explain the increase in PPR at DLS-SNr inputs, including altered GPCR signaling.…”
Section: Differential Synaptic Organization Of Inputs To the Medial A...mentioning
confidence: 77%
“…Although the literature is highly variable and sometimes contradictory, it is important to note that much of this heterogeneity is likely due to distinct experimental conditions, in particular to the regimes of alcohol exposure. Overall, however, the evidence converges on at least two observations, first, at the circuit level there is a shift in the cellular excitation/inhibition balance towards more excitable states [ 76 , 81 ] and, second, an initial impairment in synaptic plasticity resolves soon after alcohol withdrawal [ 82 ]. Our findings in PD rats fit well with these observations.…”
Section: Discussionmentioning
confidence: 87%
“…Acetaldehyde is a highly reactive molecule and is oxidized to acetate by mitochondrial acetaldehyde dehydrogenase (ALDH2) resulting in generation of NADH. Since alcohol can easily cross the BBB, it has been shown to directly affect numerous molecular targets in the brain, including synaptic function and transmission (Lovinger & Roberto, 2013). Moreover, in the brain, it has been shown that alcohol can suppress glucose metabolism, and therefore, acetate can be used as an energy source (Tanabe et al., 2019).…”
Section: Discussionmentioning
confidence: 99%