Genetic and Pharmacological Manipulations of Glyoxalase 1 Mediate Ethanol Withdrawal Seizure Susceptibility in Mice

Abstract: Central nervous system (CNS) hyperexcitability is a clinically significant feature of acute ethanol withdrawal. There is evidence for a genetic contribution to withdrawal severity, but specific genetic risk factors have not been identified. The gene glyoxalase 1 (Glo1) has been previously implicated in ethanol consumption in mice, and GLO1 inhibition can attenuate drinking in mice and rats. Here, we investigated whether genetic and pharmacological manipulations of GLO1 activity can also mediate ethanol withdra… Show more

“…Pretreatment with a GLO1 inhibitor also alleviated pilocarpine-induced seizures, whereas Glo1 overexpression exacerbated seizures and decreased the MG concentration in the brain. Likewise, GLO1 inhibitors reduced alcohol consumption [ 82 , 83 ] and handling-induced convulsion after alcohol injection [ 84 ], whereas Glo1 overexpression exacerbated these effects. In addition, alcohol consumption was reduced in Glo1 hemizygous-knockdown mice [ 82 ].…”

Role of glyoxalase 1 in methylglyoxal detoxification–the broad player of psychiatric disorders

“…Pretreatment with a GLO1 inhibitor also alleviated pilocarpine-induced seizures, whereas Glo1 overexpression exacerbated seizures and decreased the MG concentration in the brain. Likewise, GLO1 inhibitors reduced alcohol consumption [ 82 , 83 ] and handling-induced convulsion after alcohol injection [ 84 ], whereas Glo1 overexpression exacerbated these effects. In addition, alcohol consumption was reduced in Glo1 hemizygous-knockdown mice [ 82 ].…”

Role of glyoxalase 1 in methylglyoxal detoxification–the broad player of psychiatric disorders

Reconsidering the role of protein glycation in disease

Recent Advances in the Study of the Mechanism of Brain Injury Caused by Alcohol Withdrawal