Abstract
The abnormal accumulation of α-synuclein aggregates in neurons, nerve fibers, or glial cells is the hallmark of a group of neurodegenerative diseases known collectively as α-synucleinopathies. Clinical, neuropathological, and experimental evidence strongly suggests that α-synuclein plays a role not only as a trigger of pathological processes at disease inception, but also as a mediator of pathological spreading during disease progression. Specific properties of α-synuclein, such as its ability to pass from one neuron to another, its tendency to aggregate, and its potential to generate self-propagating species, have been described and elucidated in animal models and may contribute to the relentless exacerbation of Parkinson’s disease pathology in patients. Animal models used for studying α-synuclein accumulation, aggregation, and propagation are mostly based on three approaches: (1) intra-parenchymal inoculations of exogenous α-synuclein (e.g., synthetic α-synuclein fibrils), (2) transgenic mice, and (3) animals (mice or rats) in which α-synuclein overexpression is induced by viral vector injections. Whereas pathological α-synuclein changes are consistently observed in these models, important differences are also found. In particular, pronounced pathology in transgenic mice and viral vector-injected animals does not appear to involve self-propagating α-synuclein species. A critical discussion of these models reveals their strengths and limitations and provides the basis for recommendations concerning their use for future investigations.
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Recasens, A., Ulusoy, A., Kahle, P.J. et al. In vivo models of alpha-synuclein transmission and propagation. Cell Tissue Res 373, 183–193 (2018). https://doi.org/10.1007/s00441-017-2730-9
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DOI: https://doi.org/10.1007/s00441-017-2730-9