Effects of acute ethanol and/or diazepam exposure on immediate and delayed hippocampal metabolite levels in rats anesthetized with isoflurane.

Alcohol and benzodiazepines are psychoactive substances frequently associated in voluntary drug intoxications that share common mechanisms of action, including facilitation of GABAergic transmission. This study aimed to assess the separate and combined effects of ethanol and diazepam acute exposure on hippocampal metabolite levels, as well as on delayed cognitive performance, in rats anesthetized with isoflurane. Adult male Wistar rats received one intraperitoneal injection containing either saline solution ("CTL" group, N = 15), a 5-mg/kg dose of diazepam ("DIA" group, N = 16), a 2-g/kg dose of ethanol ("EtOH" group, N = 18), or a 5-mg/kg dose of diazepam + a 2-g/kg dose of ethanol ("DIA + EtOH" group, N = 24).

Lack of direct involvement of a diazepam long-term treatment in the occurrence of irreversible cognitive impairment: a pre-clinical approach.

Several observational studies have found a link between the long-term use of benzodiazepines and dementia, which remains controversial. Our study was designed to assess (i) whether the long-term use of benzodiazepines, at two different doses, has an irreversible effect on cognition, (ii) and whether there is an age-dependent effect. One hundred and five C57Bl/6 male mice were randomly assigned to the 15 mg/kg/day, the 30 mg/kg/day diazepam-supplemented pellets, or the control group.

Contributions of animal models of cognitive disorders to neuropsychopharmacology.

Cognitive disorders and symptoms are key features of many mental and neurological diseases, with a large spectrum of impaired domains. Because of their possible evolution and detrimental functioning impact, they are a major pharmacological target for both symptomatic and disease-modifier drugs, while few cognitive enhancers have been marketed with an insufficient efficiency. It explains the need to model these cognitive disorders beyond the modelization of mental or neurological diseases themselves.

Regulation of Protein Synthesis and Apoptosis in Lymphocytes of Parkinson Patients: The Effect of Dopaminergic Treatment.

Background: Parkinson disease (PD) is a neurodegenerative disorder characterized by progressive degeneration of the dopaminergic neurons in the substantia nigra, presumably due to increased apoptosis. In previous studies, we showed altered expression of proteins involved in mammalian target of rapamycin (mTOR) antiapoptotic and double-stranded RNA-dependent protein kinase (PKR) apoptotic pathways of translational control in experimental cellular and animal models of PD.

Results: In this work, our results showed clear modifications in the expression of kinases involved in mTOR and PKR apoptosis pathways, in lymphocytes of PD patients treated or not with anti-PD treatment (levodopa), which confirmed the role played by apoptosis in the pathogenesis of this disease and the positive effect of treatment with medication on this parameter.