Enteric nervous system (ENS) involvement in Parkinson's disease: Immunohistochemical evidence of dopamine depletion and lewy body formation in the colon of patients with Parkinson's disease (PD)

We investigated α-synuclein’s (αSyn) seeding activity in tissue from the brain and enteric nervous system. Specifically, we assessed the seeding propensity of pathogenic αSyn in formalin-fixed tissue from the gastric cardia and five brain regions of 29 individuals (12 Parkinson’s disease, 8 incidental Lewy body disease, 9 controls) using a protein misfolding cyclic amplification assay. The structural characteristics of the resultant αSyn assemblies were determined by limited proteolysis and transmission electron microscopy. We show that fixed tissue from Parkinson’s disease (PD) and incidental Lewy body disease (ILBD) seeds the aggregation of monomeric αSyn into fibrillar assemblies. Significant variations in the characteristics of fibrillar assemblies derived from different regions even within the same individual were observed. This finding suggests that fixation stabilizes seeds with an otherwise limited seeding propensity, that yield assemblies with different intrinsic structures (i.e., strains). The lag phase preceding fibril assembly for patients ≥80 was significantly shorter than in other age groups, suggesting the existence of increased numbers of seeds or a higher seeding potential of pathogenic αSyn with time. Seeding activity did not diminish in late-stage disease. No statistically significant difference in the seeding efficiency of specific regions was found, nor was there a relationship between seeding efficiency and the load of pathogenic αSyn in a particular region at a given neuropathological stage.

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The Baseline Structure of the Enteric Nervous System and Its Role in Parkinson’s Disease

Life ◽

10.3390/life11080732 ◽

2021 ◽

Vol 11 (8) ◽

pp. 732

Author(s):

Gianfranco Natale ◽

Larisa Ryskalin ◽

Gabriele Morucci ◽

Gloria Lazzeri ◽

Alessandro Frati ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Nervous System ◽

Enteric Nervous System ◽

Gi Tract ◽

Multiple Control ◽

Fine Control ◽

The Central Nervous System ◽

Degenerative Alterations ◽

Comprehensive Classification

The gastrointestinal (GI) tract is provided with a peculiar nervous network, known as the enteric nervous system (ENS), which is dedicated to the fine control of digestive functions. This forms a complex network, which includes several types of neurons, as well as glial cells. Despite extensive studies, a comprehensive classification of these neurons is still lacking. The complexity of ENS is magnified by a multiple control of the central nervous system, and bidirectional communication between various central nervous areas and the gut occurs. This lends substance to the complexity of the microbiota–gut–brain axis, which represents the network governing homeostasis through nervous, endocrine, immune, and metabolic pathways. The present manuscript is dedicated to identifying various neuronal cytotypes belonging to ENS in baseline conditions. The second part of the study provides evidence on how these very same neurons are altered during Parkinson’s disease. In fact, although being defined as a movement disorder, Parkinson’s disease features a number of degenerative alterations, which often anticipate motor symptoms. Among these, the GI tract is often involved, and for this reason, it is important to assess its normal and pathological structure. A deeper knowledge of the ENS is expected to improve the understanding of diagnosis and treatment of Parkinson’s disease.

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Alpha-synuclein alters the faecal viromes of rats in a gut-initiated model of Parkinson’s disease

10.1101/2021.03.29.437468 ◽

2021 ◽

Author(s):

S. R. Stockdale ◽

L. A. Draper ◽

S. M. O’Donovan ◽

W. Barton ◽

O. O’Sullivan ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Nervous System ◽

Lewy Body ◽

Neurological Disorder ◽

Alpha Synuclein ◽

Observational Period ◽

Β Diversity ◽

Potential Trigger ◽

The Brain

AbstractParkinson’s disease (PD) is a chronic neurological disorder associated with the misfolding of alpha-synuclein (α-syn) into Lewy body aggregates within nerve cells that contribute to their neurodegeneration. Recent evidence suggests α-syn aggregation may begin in the gut and travel to the brain along the vagus nerve, with microbes a potential trigger initiating the misfolding of α-syn. However, changes in the gut virome in response to α-syn alterations have not been investigated. In this study, we show longitudinal changes in the faecal virome of rats administered either monomeric or preformed fibrils (PFF) of α-syn directly into their enteric nervous system. Differential changes in rat viromes were observed when comparing monomeric and PFF α-syn. The virome β-diversity changes after α-syn treatment were compounded by the addition of LPS as an adjunct. Changes in the diversity of rat faecal viromes were observed after one month and did not resolve within the study’s five month observational period. Overall, these results suggest that microbiome alterations associated with PD may, partially, be reactive to host α-syn associated changes.

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