Abstract
A hallmark of Parkinson’s disease is the formation of large protein-rich aggregates in neurons, where α-synuclein is the most abundant protein. A standard approach to visualize aggregation is to fluorescently label the proteins of interest. Then, highly fluorescent regions are assumed to contain aggregated proteins. However, fluorescence brightness alone cannot discriminate micrometer-sized regions with high expression of non-aggregated proteins from regions where the proteins are aggregated on the molecular scale. Here, we demonstrate that 2-dimensional polarization imaging can discriminate between preformed non-aggregated and aggregated forms of α-synuclein, and detect increased aggregation in brain tissues of transgenic mice. This imaging method assesses homo-FRET between labels by measuring fluorescence polarization in excitation and emission simultaneously, which translates into higher contrast than fluorescence anisotropy imaging. Exploring earlier aggregation states of α-synuclein using such technically simple imaging method could lead to crucial improvements in our understanding of α-synuclein-mediated pathology in Parkinson’s Disease.
Highlights
The aggregation of specific proteins is linked to different neurodegenerative conditions, such as Alzheimer’s and Parkinson’s diseases[1]
Förster resonance energy transfer (FRET) applied to α-syn in buffer solution and in live cells allowed the assessment of early aggregation states within the amyloid formation pathway[29,30,31,32]
We describe the implementation of 2-dimensional polarization imaging (2D POLIM) for assessing protein aggregation via homo-FRET measurements. 2D POLIM was developed for measuring energy transfer at the single-molecule level, and has shown its potential in material sciences37–39. 2D POLIM evaluates homo-FRET by a parameter called energy funneling efficiency (ε) that ranges from 0 to 1 (100% efficient FRET)
Summary
The aggregation of specific proteins is linked to different neurodegenerative conditions, such as Alzheimer’s and Parkinson’s diseases[1]. We describe the implementation of 2-dimensional polarization imaging (2D POLIM) for assessing protein aggregation via homo-FRET measurements. Thanks to the new homo-FRET image contrast ε, we could detect differences in protein aggregation in regions that would otherwise be unnoticed if judged only by their fluorescence intensity or FA.
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