research published 1999-02-01 · by Brailowsky S, García O

Archives of medical research · 1999 Jan-Feb

PubMed #10071417

Abstract

Ethanol exerts its behavioral effects largely by interacting with receptors to brain neurotransmitters. The molecular mechanisms involving these interactions are still not well known since an ideal model for their study is currently unavailable. In addition, responses to alcohol may vary due to factors such as genetic predisposition, ethanol concentration consumed, and stimuli such as stress, socialization, etc. The chronic consumption of alcohol, similar to that of other drugs such as benzodiazepines and barbiturates, is linked to GABAergic neurotransmission. GABA is the predominant inhibitory neurotransmitter in the brain. In a context of substance abuse, these three drugs first cause a gratifying effect, later tolerance and finally, physical and psychological dependence. If consumption is interrupted abruptly, a withdrawal syndrome occurs. The Alcohol Withdrawal Syndrome (AWS) is a state of hyperexcitability characterized by anxiety, fear, muscular rigidity and tonic-clonic seizures with epileptiform-type characteristics. The epileptic seizures seen during AWS are often similar to those seen in experimental epilepsy models such as "kindling" or GABA Withdrawal Syndrome (GWS) models. A possible correlation between these models and AWS will allow for a better understanding of the cellular and molecular effects that alcohol exerts on the brain.

Neurotransmitters

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