In this article, we provide an overview of the alterations on ene

In this article, we provide an overview of the alterations on energetic metabolism occurring in AD. First, we resume the evidences that link the ‘metabolic syndrome’ with increased risk for developing AD and revisit the major changes occurring on both extramitochondrial and mitochondrial metabolic pathways, as revealed by imaging

studies and biochemical analysis of brain and peripheral samples obtained from AD patients. We also cover the recent findings on cellular and animal models that highlight mitochondrial dysfunction as a fundamental mechanism in AD pathogenesis. Recent evidence posits that mitochondrial abnormalities BIIB057 molecular weight in this neurodegenerative disorder are associated with changes in mitochondrial dynamics and can be induced by amyloid-beta (A beta) that progressively accumulates within this organelle, acting as a direct toxin. Furthermore, A beta induces activation of glutamate N-methyl-D-aspartate receptors (NMDARs) and/or excessive release of calcium from endoplasmic reticulum (ER) that may underlie mitochondrial calcium dyshomeostasis thereby disturbing organelle functioning and, ultimately, damaging

neurons. Throughout the review, we further discuss several therapeutic strategies aimed to restore neuronal metabolic function in cellular and animal models of AD, some of which have reached the stage of clinical trials.”
“Background: The present study tested the hypothesis that mephedrone (MEPH) produces behavioral sensitization (i.e., a progressive increase in motor response during repeated psychostimulant exposure) in rats.\n\nMethods: selleck MEPH was administered in two paradigms: (1) a 7-day variable-dosing paradigm (15 mg/kg on the first day, 30 mg/kg for 5 days, 15 mg/kg on the last Selleckchem MK-4827 day) and (2) a 5-day constant-dosing

paradigm (15 mg/kg for 5 days). Following 10 days of drug absence, rats were challenged with MEPH (15 mg/kg).\n\nResults: MEPH challenge produced enhancement of repetitive movement compared to acute MEPH exposure in both paradigms. Sensitization of repetitive movements to MEPH was also detected following a shorter (2-day) absence interval, before initiation of an absence interval (i.e., following repeated daily exposure), and across context-independent and -dependent dosing schedules. A lower dose of MEPH (5 mg/kg) did not produce sensitization of repetitive movement. Sensitization of ambulatory activity was not detected in any experimental paradigm.\n\nConclusion: These results suggest that repeated MEPH exposure produces preferential sensitization to repetitive movement produced by acute MEPH challenge. Our findings suggest that MEPH is a unique stimulant displaying weak sensitizing properties with overlapping, but distinctive, features relative to established psychostimulant drugs. (C) 2013 Elsevier Ireland Ltd. All rights reserved.

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