Title : In Vivo Sub-chronic Treatment with Dichlorvos in Young Rats Promotes Synaptic Plasticity and Learning by a Mechanism that Involves Acylpeptide Hydrolase Instead of Acetylcholinesterase Inhibition. Correlation with Endogenous beta-Amyloid Levels - Garcia-Rojo_2017_Front.Pharmacol_8_483 |
Author(s) : Garcia-Rojo G , Gamiz F , Ampuero E , Rojas-Espina D , Sandoval R , Rozas C , Morales B , Wyneken U , Pancetti F |
Ref : Front Pharmacol , 8 :483 , 2017 |
Abstract : Garcia-Rojo_2017_Front.Pharmacol_8_483 |
ESTHER : Garcia-Rojo_2017_Front.Pharmacol_8_483 |
PubMedSearch : Garcia-Rojo_2017_Front.Pharmacol_8_483 |
PubMedID: 28790916 |
Garcia-Rojo G, Gamiz F, Ampuero E, Rojas-Espina D, Sandoval R, Rozas C, Morales B, Wyneken U, Pancetti F (2017)
In Vivo Sub-chronic Treatment with Dichlorvos in Young Rats Promotes Synaptic Plasticity and Learning by a Mechanism that Involves Acylpeptide Hydrolase Instead of Acetylcholinesterase Inhibition. Correlation with Endogenous beta-Amyloid Levels
Front Pharmacol
8 :483
Garcia-Rojo G, Gamiz F, Ampuero E, Rojas-Espina D, Sandoval R, Rozas C, Morales B, Wyneken U, Pancetti F (2017)
Front Pharmacol
8 :483