Interactions of Gut Microbiome, Genetic Susceptibility, and Environmental Factors in Parkinson's Disease

Abstract

Genetic and environmental factors explain a fraction of Parkinson disease risk, prompting the question if microorganisms in the gut may be the trigger. The main goal of this proposal is to validate and investigate the mechanisms of interaction in a preclinical mouse model of PD. To do this, we have created a germ-free (GF) and specific pathogen free (SPF) pre-clinical mouse model in which alpha-synuclein is constitutively expressed under the Thy1 promotor (Thy1-SNCA). We have successfully established stable mouse colonies in both settings and both confirmed the transgene established alpha-synuclein expression via PCR and protein expression in the brain of Thy1-SNCA mice via western blot. In order to test whether pathogenic microorganisms present within the gut trigger PD-like pathology, we have transferred Corynebacteria amycolatum (CA, identified through the work of the Partnering Project) to GF and SPF Thy1-SNCA mice. We have established cultured conditions for CA, a PCR method to detect it, and performed transfers to both germ free and specific pathogen free mice. We have shown that in GF mice, this produces stable colonization. In the SPF mice, however, CA colonization does not occur. During the last research period, we have bred a colony of GF Thy1-SNCA transgenic mice sufficient to test the study outcomes and collected tissue samples for both one month and six month endpoints. Remarkably, we have found that the presence of CA in fact attenuates, rather than enhances, PD-like pathology relative to the gnotobiotic state.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2023

Accession Number

AD1223408

Entities

Tags