1. miR-101a-3p Impairs Synaptic Plasticity and Contributes to Synucleinopathy
- Author
-
Mary Xylaki, Isabel Paiva, Mohammed Al-Azzani, Ellen Gerhardt, Gaurav Jain, Md Rezaul Islam, Eftychia Vasili, Zinah Wassouf, Julia M. Schulze-Hentrich, André Fischer, and Tiago Fleming Outeiro
- Subjects
Neuronal Plasticity ,Sapap3 protein, mouse ,genetics [Synucleinopathies] ,Mice, Transgenic ,Nerve Tissue Proteins ,dendritic spines ,Alpha-synuclein ,Mice ,MicroRNAs ,Cellular and Molecular Neuroscience ,genetics [Parkinson Disease] ,genetics [alpha-Synuclein] ,Animals ,ddc:610 ,metabolism [alpha-Synuclein] ,genetics [MicroRNAs] ,synucleinopathy ,Neurology (clinical) ,miRNA - Abstract
Background:Synucleinopathies are disorders characterized by the abnormal accumulation of α-synuclein (aSyn). Synaptic compromise is observed in synucleinopathies parallel to aSyn aggregation and is accompanied by transcript deregulation.Objective:We sought to identify microRNAs associated with synaptic processes that may contribute to synaptic dysfunction and degeneration in synucleinopathies.Methods:We performed small RNA-sequencing of midbrain from 6-month-old transgenic mice expressing A30P mutant aSyn, followed by comparative expression analysis. We then used real-time quantitative polymerase chain reaction (qPCR) for validation. Functional analysis was performed in primary neurons by biochemical assays and imaging.Results:We found several deregulated biological processes linked to the synapse. miR-101a-3p was validated as a synaptic miRNA upregulated in aSyn Tg mice and in the cortex of dementia with Lewy bodies patients. Mice and primary cultured neurons overexpressing miR-101a-3p showed downregulation of postsynaptic proteins GABA Ab2 and SAPAP3 and altered dendritic morphology resembling synaptic plasticity impairments and/or synaptic damage. Interestingly, primary cultured neuron exposure to recombinant wild-type aSyn species efficiently increased miR-101a-3p levels. Finally, a dynamic role of miR-101a-3p in synapse plasticity was shown by identifying downregulation of miR-101a-3p in a condition of enhanced synaptic plasticity modelled in Wt animals housed in enriched environment.Conclusion:To conclude, we correlated pathologic aSyn with high levels of miR-101a-3p and a novel dynamic role of the miRNA in synaptic plasticity.
- Published
- 2023