Is There a Place for Lewy Bodies before and beyond Alpha-Synuclein Accumulation? Provocative Issues in Need of Solid Explanations

Lenzi, Paola; Lazzeri, Gloria; Ferrucci, Michela; Scotto, Marco; Frati, Alessandro; Puglisi-Allegra, Stefano; Busceti, Carla Letizia; Fornai, Francesco

doi:10.3390/ijms25073929

Cited by 2 publications

References 126 publications

(223 reference statements)

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In situ stoichiometry amounts of p62 and poly-ubiquitin exceed the increase of alpha-synuclein during degeneration of catecholamine cells induced by autophagy inhibition in vitro

Lenzi,

Lazzeri,

Ferrucci

et al. 2024

J Neural Transm

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Neurodegenerative disorders are typically featured by the occurrence of neuronal inclusions. In the case of Parkinson’s disease (PD) these correspond to Lewy bodies (LBs), which are routinely defined as proteinaceous inclusions composed of alpha-synuclein (alpha-syn). In turn, alpha-syn is considered to be the key protein in producing PD and fostering its progression. Recent studies challenged such a concept and emphasized the occurrence of other proteins such as p62 and poly-ubiquitin (Poly-ub) in the composition of LBs, which are also composed of large amounts of tubulo-vesicular structures. All these components, which accumulate within the cytosol of affected neurons in PD, may be the consequence of a dysfunction of major clearing pathways. In fact, autophagy-related systems are constantly impaired in inherited PD and genetic models of PD. The present study was designed to validate whether a pharmacological inhibition of autophagy within catecholamine cells produces cell damage and accumulation of specific proteins and tubulo-vesicular structures. The stoichiometry counts of single proteins, which accumulate within catecholamine neurons was carried out along with the area of tubulo-vesicular structures. In these experimental conditions p62 and Poly-ub accumulation exceeded at large the amounts of alpha-syn. In those areas where Poly-ub and p62 were highly expressed, tubulo-vesicular structures were highly represented compared with surrounding cytosol. The present study confirms new vistas about LBs composition and lends substance to the scenario that autophagy inhibition rather than a single protein dysfunction as key determinant of PD.

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In situ stoichiometry amounts of p62 and poly-ubiquitin exceed the increase of alpha-synuclein during degeneration of catecholamine cells induced by autophagy inhibition in vitro

Lenzi,

Lazzeri,

Ferrucci

et al. 2024

J Neural Transm

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Ultrastructural diversity of alpha-Synuclein pathology in the post-mortem brain of Parkinson patients: implications for Lewy Body formation

Lewis,

van den Heuvel,

di Fabrizio

et al. 2024

Preprint

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Lewy bodies, the major pathological hallmark of Parkinson’s disease, are intraneuronal inclusions rich in aggregated alpha-synuclein (aSyn). To understand the cellular mechanisms behind the formation of Lewy bodies and the aggregation of aSyn, we used correlative light and electron microscopy and detailed ultrastructural analysis of postmortem brain tissue samples of Parkinson patients. We found that somal aSyn inclusions in dopaminergic neurons were exclusively fibrillar, while membranous-type inclusions were located outside the cell soma and likely compact neuritic aggregates. These neuritic inclusions displayed phenotypic heterogeneity, ranging from predominantly membranous to mixed membranous/fibrillar ultrastructures. Our data suggest that membranous and fibrillar aSyn inclusions form via distinct mechanisms, with membranous neuritic inclusions providing the environment for the initial nucleation of aSyn fibrils, which could then spread via a prion-like mechanism to form somal fibrillar Lewy bodies. This study provides important insight into Lewy body formation and highlights the importance of aSyn and membrane interactions for future therapeutic intervention.

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Is There a Place for Lewy Bodies before and beyond Alpha-Synuclein Accumulation? Provocative Issues in Need of Solid Explanations

Cited by 2 publications

References 126 publications

In situ stoichiometry amounts of p62 and poly-ubiquitin exceed the increase of alpha-synuclein during degeneration of catecholamine cells induced by autophagy inhibition in vitro

In situ stoichiometry amounts of p62 and poly-ubiquitin exceed the increase of alpha-synuclein during degeneration of catecholamine cells induced by autophagy inhibition in vitro

Ultrastructural diversity of alpha-Synuclein pathology in the post-mortem brain of Parkinson patients: implications for Lewy Body formation

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