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1.
Neurodegener Dis ; 15(4): 243-57, 2015.
Article in English | MEDLINE | ID: mdl-26111745

ABSTRACT

BACKGROUND: ß-Synuclein (ß-Syn) is a member of the highly homologous synuclein protein family. The most prominent family member, α-synuclein (α-Syn), abnormally accumulates in so-called Lewy bodies, one of the major pathological hallmarks of α-synucleinopathies. Notably, parts of the peptide backbone, called the nonamyloid component, are also found in amyloid plaques. However, ß-Syn seems to have beneficial effects by reducing α-Syn aggregation, and amyloid antiaggregatory activity has been described. OBJECTIVE: The aim of the study was to analyze if wild-type ß-Syn can counteract functional and pathological changes in a murine Alzheimer model over different time periods. METHODS: At the onset of pathology, lentiviral particles expressing human ß-Syn were injected into the hippocampus of transgenic mice overexpressing human amyloid precursor protein with Swedish and London mutations (APPSL). An empty vector served as the control. Behavioral analyses were performed 1, 3 and 6 months after injection followed by biochemical and histological examinations of brain samples. RESULTS: ß-Syn expression was locally concentrated and rather modest, but nevertheless changed its effect on APP expression and plaque load in a time- and concentration-dependent manner. Interestingly, the phosphorylation of glycogen synthase kinase 3 beta was enhanced in APPSL mice expressing human ß-Syn, but an inverse trend was observed in wild-type animals. CONCLUSION: The initially reported beneficial effects of ß-Syn could be partially reproduced, but locally elevated levels of ß-Syn might also cause neurodegeneration. To enlighten the controversial pathological mechanism of ß-Syn, further examinations considering the relationship between concentration and exposure time of ß-Syn are needed.


Subject(s)
Alzheimer Disease/metabolism , Amyloid beta-Protein Precursor/metabolism , Hippocampus/metabolism , beta-Synuclein/metabolism , Animals , Anxiety/prevention & control , Cell Line, Tumor , Disease Models, Animal , Encephalitis/metabolism , Genetic Vectors , Humans , Lentivirus , Male , Memory/drug effects , Mice , Mice, Inbred C57BL , Mice, Transgenic , Proto-Oncogene Proteins c-akt/metabolism , Signal Transduction/drug effects , alpha-Synuclein/metabolism , beta-Synuclein/administration & dosage , beta-Synuclein/genetics
2.
PLoS One ; 9(3): e92068, 2014.
Article in English | MEDLINE | ID: mdl-24633006

ABSTRACT

This study was performed to explore the feasibility of tracing nanoparticles for drug transport in the healthy rat brain with a clinical MRI scanner. Phantom studies were performed to assess the R1 ( =  1/T1) relaxivity of different magnetically labeled nanoparticle (MLNP) formulations that were based on biodegradable human serum albumin and that were labeled with magnetite of different size. In vivo MRI measurements in 26 rats were done at 3T to study the effect and dynamics of MLNP uptake in the rat brain and body. In the brain, MLNPs induced T1 changes were quantitatively assessed by T1 relaxation time mapping in vivo and compared to post-mortem results from fluorescence imaging. Following intravenous injection of MLNPs, a visible MLNP uptake was seen in the liver and spleen while no visual effect was seen in the brain. However a histogram analysis of T1 changes in the brain demonstrated global and diffuse presence of MLNPs. The magnitude of these T1 changes scaled with post-mortem fluorescence intensity. This study demonstrates the feasibility of tracking even small amounts of magnetite labeled NPs with a sensitive histogram technique in the brain of a living rodent.


Subject(s)
Brain/metabolism , Drug Carriers/metabolism , Magnetic Resonance Imaging , Magnetite Nanoparticles , Animals , Biological Transport , Drug Carriers/chemistry , Feasibility Studies , Female , Humans , Magnetite Nanoparticles/chemistry , Phantoms, Imaging , Rats , Serum Albumin/chemistry
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