Upregulation of beta catenin in superior frontal cortex of chronic alcoholics

Chronic alcohol abuse causes neurotoxicity and the development of tolerance and dependence. At the molecular level, however, knowledge about mechanisms underlying alcoholism remains limited. In this study we examined the superior frontal cortex, one of the most vulnerable brain regions, of alcoholics and of age- and gender-matched control subjects by means of antibody microarrays and Western blot analyses, and identified an up-regulation of beta-catenin level in the superior frontal cortex of alcoholics. Beta-catenin is the orthologue of the Drosophila armadillo segment polarity gene and a down stream component of the Wnt and Akt signaling pathway. Beta-catenin was identified as a cell adhesion molecule of the cadherin family which binds to the actin cytoskeleton. Genetic and biochemical analyses also found that beta-catenin can be translocated from the cytoplasm to the nucleus and acts as a transcription factor. In addition, electron microscopy performed on rat brain tissue sections has localized the beta-catenin and cadherin complexes to the synapses where they border the active zone. Because of the multi-functional role of beta-catenin in the nervous system, this study provides the premise for further investigation of mechanisms underlying the up-regulation of beta-catenin in alcoholism, which may have considerable pathogenic and therapeutic relevance.

GFAP analysis in aluminium chloride-treated rat brain regions

The neurotoxicity of aluminium chloride was assessed in maleWistar albino rats. Rats were treated with aluminium chloride dissolved in distilled water at a dose of 300 mg/kg body weight daily by oral gavage (1 ml) for 45 days. Controls were treated with distilled water only. Animals were sacrificed and different brain regions were dissected. GFAP analysis was carried out by Western blotting using mouse anti-GFAP monoclonal antibody (Pharmingen: 60311D) at 1:1000. Blots were developed with HRP-linked goat anti-mouse secondary antibody and quantified by densitometry.

Upregulation of beta-catenin protein in superior frontal cortex of chronic alcoholics

Chronic alcohol abuse causes neurotoxicity and the development of tolerance and dependence. At the molecular level, however, knowledge of underlying mechanisms remains limited. In this study we examined the superior frontal cortex, an area vulnerable to neuronal loss, of alcoholics and age- and gender-matched control subjects by means of antibody arrays and Western blot analyses, and found an upregulation of b-catenin protein in the alcoholics.

NMDA receptor dysfunction in Alzheimer's disease

The inherent neurotoxic potential ofthe endogenous excitatory amino acid glutamate, may be causally related to the pathogenesis ofAD neurodegeneration disorders. Neuronal excitotoxicity is conceivably mediated by the N-methyl-D-aspartate-(NMDA)-Ca2+- ionotropic receptor. NMDA receptors exist as multimeric complexes comprising proteins from two families – NR1 and NR2(A-D). The polyamines, spermine and spermidine bind to, and modulate NMDA receptor efficacy via interaction with exon 5, an alternatively-spliced, 21 amino acid, N-terminal cassette. ADassociated cognitive impairment may therefore occur via subunitspecific NMDA receptor dysfunction effecting regional selectivity ofneuronal degradation. Total RNA was prepared from pathologically spared and susceptible regions from AD cases and matched controls. Quantitation was performed using standard curve methodology in which a known amount ofa synthetic ribonucleic acid competitor deletion construct was co-amplified against total RNA. Expression profile analysis oftwo NR1 mRNA subsets has revealed significant differences in NR11XX mRNA levels in cingulate gyrus, P.