Tobias Högen scite author profile

Aggregation of ␣-synuclein is a key event in several neurodegenerative diseases, including Parkinson disease. Recent findings suggest that oligomers represent the principal toxic aggregate species. Using confocal single-molecule fluorescence techniques, such as scanning for intensely fluorescent targets (SIFT) and atomic force microscopy, we monitored ␣-synuclein oligomer formation at the single particle level. Organic solvents were used to trigger aggregation, which resulted in small oligomers ("intermediate I"). Under these conditions, Fe 3؉ at low micromolar concentrations dramatically increased aggregation and induced formation of larger oligomers ("intermediate II"). Both oligomer species were on-pathway to amyloid fibrils and could seed amyloid formation. Notably, only Fe 3؉ -induced oligomers were SDS-resistant and could form ion-permeable pores in a planar lipid bilayer, which were inhibited by the oligomerspecific A11 antibody. Moreover, baicalein and N-benzylidenebenzohydrazide derivatives inhibited oligomer formation. Baicalein also inhibited ␣-synuclein-dependent toxicity in neuronal cells. Our results may provide a potential disease mechanism regarding the role of ferric iron and of toxic oligomer species in Parkinson diseases. Moreover, scanning for intensely fluorescent targets allows high throughput screening for aggregation inhibitors and may provide new approaches for drug development and therapy.

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Inhibition and disaggregation of α-synuclein oligomers by natural polyphenolic compounds

Caruana

et al. 2011

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Edited by Jesus Avila Keywords:Parkinson's disease Alpha-synuclein Aggregation Confocal fluorescence spectroscopy Polyphenol Aromatic interaction a b s t r a c t Aggregation of alpha-synuclein (aS) into oligomers is critically involved in the pathogenesis of Parkinson's disease (PD). Using confocal single-molecule fluorescence spectroscopy, we have studied the effects of 14 naturally-occurring polyphenolic compounds and black tea extract on aS oligomer formation. We found that a selected group of polyphenols exhibited potent dose-dependent inhibitory activity on aS aggregation. Moreover, they were also capable of robustly disaggregating pre-formed aS oligomers. Based upon structure-activity analysis, we propose that the key molecular scaffold most effective in inhibiting and destabilizing self-assembly by aS requires: (i) aromatic elements for binding to the aS monomer/oligomer and (ii) vicinal hydroxyl groups present on a single phenyl ring. These findings may guide the design of novel therapeutic drugs in PD. Structured summary of protein interactions:Alpha-synuclein binds to Alpha-synuclein by biophysical (View Interaction 1, 2)

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Histopathology and clinical course of MOG-antibody-associated encephalomyelitis

Spadaro

Gerdes

Mayer

et al. 2015

Ann Clin Transl Neurol

165

140

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We present histological, MRI, and clinical features of an adult patient with relapsing encephalomyelitis and antibodies against myelin oligodendrocyte glycoprotein (MOG). Furthermore, we report molecular details of the recognized epitope that is specific for human MOG. A brain biopsy revealed multiple sclerosis (MS)-type II pathology. Some features overlapped with both MS and neuromyelitis optica spectrum disorders (NMOSD), whereas others were distinct from both MS and NMOSD. Immunoadsorption and rituximab induced clinical stabilization. This case contributes a new, so far missing link in the emerging spectrum of MOG-antibody-associated encephalomyelitis.

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Mitochondrial membrane permeabilisation by amyloid aggregates and protection by polyphenols

Camilleri

Zarb

Caruana

et al. 2013

Biochimica et Biophysica Acta (BBA) - Biomembranes

135

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Alzheimer's disease and Parkinson's disease are neurodegenerative disorders characterised by the misfolding of proteins into soluble prefibrillar aggregates. These aggregate complexes disrupt mitochondrial function, initiating a pathophysiological cascade leading to synaptic and neuronal degeneration. In order to explore the interaction of amyloid aggregates with mitochondrial membranes, we made use of two in vitro model systems, namely: (i) lipid vesicles with defined membrane compositions that mimic those of mitochondrial membranes, and (ii) respiring mitochondria isolated from neuronal SH-SY5Y cells. External application of soluble prefibrillar forms, but not monomers, of amyloid-beta (Aβ42 peptide), wild-type α-synuclein (α-syn), mutant α-syn (A30P and A53T) and tau-441 proteins induced a robust permeabilisation of mitochondrial-like vesicles, and triggered cytochrome c release (CCR) from isolated mitochondrial organelles. Importantly, the effect on mitochondria was shown to be dependent upon cardiolipin, an anionic phospholipid unique to mitochondria and a well-known key player in mitochondrial apoptosis. Pharmacological modulators of mitochondrial ion channels failed to inhibit CCR. Thus, we propose a generic mechanism of thrilling mitochondria in which soluble amyloid aggregates have the intrinsic capacity to permeabilise mitochondrial membranes, without the need of any other protein. Finally, six small-molecule compounds and black tea extract were tested for their ability to inhibit permeation of mitochondrial membranes by Aβ42, α-syn and tau aggregate complexes. We found that black tea extract and rosmarinic acid were the most potent mito-protectants, and may thus represent important drug leads to alleviate mitochondrial dysfunction in neurodegenerative diseases.

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Increased α-synuclein aggregation following limited cleavage by certain matrix metalloproteinases

Xiong

Giese

Boetzel

et al. 2009

Experimental Neurology

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Tobias Högen

Single Particle Characterization of Iron-induced Pore-forming α-Synuclein Oligomers

Inhibition and disaggregation of α-synuclein oligomers by natural polyphenolic compounds

Histopathology and clinical course of MOG-antibody-associated encephalomyelitis

Mitochondrial membrane permeabilisation by amyloid aggregates and protection by polyphenols

Increased α-synuclein aggregation following limited cleavage by certain matrix metalloproteinases

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