The Single Prolonged Stress protocol is considered a model for PTSD, as it induces long lasting changes in rat behaviour and endocrine regulation. Previous work demonstrated that some of these... Show moreThe Single Prolonged Stress protocol is considered a model for PTSD, as it induces long lasting changes in rat behaviour and endocrine regulation. Previous work demonstrated that some of these changes can be prevented by treatment with the glucocorticoid receptor antagonist RU486, administered a week after the stressor. The current study evaluated the effects of an earlier intervention with RU486, as evaluated 1 week after SPS-exposure. Most RU486 effects occurred independent of prior stress, except for the reversal of a stress-induced increase in locomotor behaviour. The accompanying changes in gene expression depended on gene, brain region, and time. DNA methylation of the robustly down-regulated Fkbp5 gene was dissociated of changes in mRNA expression. The findings reinforce the long term effects of GR antagonist treatment, but also emphasize the need to evaluate changes over time to allow the identification of robust correlates between gene expression and behavioural/endocrine outcome of stressful experiences. Show less
This study investigates changes with respect to increasing protein levels in dystrophic nerves of two mdx mouse models of Duchenne muscular dystrophy (DMD). We propose that these nerve changes... Show moreThis study investigates changes with respect to increasing protein levels in dystrophic nerves of two mdx mouse models of Duchenne muscular dystrophy (DMD). We propose that these nerve changes result from progressive ongoing damage to neuromuscular junctions (NMJs) due to repeated intrinsic bouts of necrosis in dystrophic muscles. We compared sciatic nerves from classic mdx mice aged 13, 15 and 18 months (M), with D2.mdx mice (on DBA2 background) aged 9 and 13 M, using immunoblotting to quantify levels of 7 proteins. The neuronal proteins S100 beta and Tau5 were increased by 13 M in mdx nerves (compared with WT), indicating ongoing myonecrosis in this strain. In striking contrast there was no difference in levels of these neuronal proteins for D2.mdx and D2.WT sciatic nerves at 13 M, indicating reduced myonecrosis over this time in D2.mdx mice compared with mdx. These novel changes in mdx sciatic nerves by 13 M, suggest early denervation or neurodegeneration of dystrophic nerves that is likely irreversible and progressive. This neuronal readout of persistent myonecrosis may provide a useful new long-term biomarker for preclinical studies that aim to reduce myonecrosis, plus such neuronal changes present potential new drug targets to help maintain the function of DMD muscles. Show less
UBB+1, a mutant form of ubiquitin, is both a substrate and an inhibitor of the proteasome which accumulates in the neuropathological hallmarks of Huntington disease (HD). In vitro, expression of... Show moreUBB+1, a mutant form of ubiquitin, is both a substrate and an inhibitor of the proteasome which accumulates in the neuropathological hallmarks of Huntington disease (HD). In vitro, expression of UBB+1 and mutant huntingtin synergistically increase aggregate formation and polyglutamine induced cell death. We generated a UBB+1 transgenic mouse line expressing UBB+1 within the neurons of the striatum. In these mice lentiviral driven expression of expanded huntingtin constructs in the striatum results in a significant increase in neuronal inclusion formation. Although UBB+1 transgenic mice show neither a decreased lifespan nor apparent neuronal loss, they appear to be more vulnerable to toxic insults like expanded polyglutamine proteins due to a modest proteasome inhibition. These findings underscore the relevance of an efficient ubiquitin-proteasome system in HD. (C) 2009 Elsevier Inc. All rights reserved. Show less