Hsp27 reduces glycation‐induced toxicity and aggregation of alpha‐synuclein

α‐synuclein (aSyn) is a major player in Parkinson's disease and a group of other disorders collectively known as synucleinopathies, but the precise molecular mechanisms involved are still unclear. aSyn, as virtually all proteins, undergoes a series of posttranslational modifications during its...

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Bibliographic Details
Published in:The FASEB journal 2020-05, Vol.34 (5), p.6718-6728
Main Authors: Vicente Miranda, Hugo, Chegão, Ana, Oliveira, Márcia S., Fernandes Gomes, Bárbara, Enguita, Francisco J., Outeiro, Tiago Fleming
Format: Article
Language:English
Subjects:
alpha-Synuclein - chemistry
alpha-Synuclein - drug effects
alpha‐synuclein
Brain Neoplasms - drug therapy
Brain Neoplasms - genetics
Brain Neoplasms - metabolism
Brain Neoplasms - pathology
Glioma - drug therapy
Glioma - genetics
Glioma - metabolism
Glioma - pathology
glycation
Glycosylation
Heat-Shock Proteins - genetics
Heat-Shock Proteins - metabolism
Hsp27
Humans
Molecular Chaperones - genetics
Molecular Chaperones - metabolism
neurodegeneration
Parkinson's disease
Protein Aggregates - drug effects
Pyruvaldehyde - pharmacology
Tumor Cells, Cultured
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Summary:α‐synuclein (aSyn) is a major player in Parkinson's disease and a group of other disorders collectively known as synucleinopathies, but the precise molecular mechanisms involved are still unclear. aSyn, as virtually all proteins, undergoes a series of posttranslational modifications during its lifetime, which can affect its biology and pathobiology. We recently showed that glycation of aSyn by methylglyoxal (MGO) potentiates its oligomerization and toxicity, induces dopaminergic neuronal cell loss in mice, and affects motor performance in flies. Small heat‐shock proteins (sHsps) are molecular chaperones that facilitate the folding of proteins or target misfolded proteins for clearance. Importantly, sHsps were shown to prevent aSyn aggregation and cytotoxicity. Upon treating cells with increasing amounts of methylglyoxal, we found that the levels of Hsp27 decreased in a dose‐dependent manner. Therefore, we hypothesized that restoring the levels of Hsp27 in glycating environments could alleviate the pathogenicity of aSyn. Consistently, we found that Hsp27 reduced MGO‐induced aSyn aggregation in cells, leading to the formation of nontoxic aSyn species. Remarkably, increasing the levels of Hsp27 suppressed the deleterious effects induced by MGO. Our findings suggest that in glycating environments, the levels of Hsp27 are important for modulating the glycation‐associated cellular pathologies in synucleinopathies.
ISSN:0892-6638
1530-6860
DOI:10.1096/fj.201902936R