Article

Addition of α-synuclein aggregates to the intestinal environment recapitulates Parkinsonian symptoms in model systems

Ze-xian Yang1,2, Yu Zhang1,3, Qing Wang1,2, Lei Zhang1, Yi-fei Liu1, Ye Zhang1,2, Yu Ren1, Chen Zhou4, Hui-wen Gao3,5, Nai-xia Zhang2,4, Lin-yin Feng1,2
1 CAS Key Laboratory of Receptor Research, Center for Neurological and Psychiatric Research and Drug Discovery (CNPRDD), Shanghai Institute of Materia Medica, Chinese Academy of Sciences, 555 Zu Chong Zhi Road, Shanghai 201203, China
2 University of Chinese Academy of Sciences, No. 19A Yuquan Road, Beijing 100049, China
3 Shandong Laboratory of Yantai Drug Discovery, Bohai Rim Advanced Research Institute for Drug Discovery, Yantai, Shandong 264117, China
4 Analytical Research Center for Organic and Biological Molecules, Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai 201203, China
5 Key Laboratory of Marine Drugs, Ministry of Education, School of Medicine and Pharmacy, Ocean University of China, Qingdao 266003, China
Correspondence to: Yu Zhang: zhangyu5@simm.ac.cn, Nai-xia Zhang: nxzhang@simm.ac.cn, Lin-yin Feng: lyfeng@simm.ac.cn,
DOI: 10.1038/s41401-023-01150-2
Received: 8 March 2023
Accepted: 2 August 2023
Advance online: 8 September 2023

Abstract

The gut-brain axis plays a vital role in Parkinson’s disease (PD). The mechanisms of gut-brain transmission mainly focus on α- synuclein deposition, intestinal inflammation and microbiota function. A few studies have shown the trigger of PD pathology in the gut. α-Synuclein is highly conserved in food products, which was able to form β-folded aggregates and to infect the intestinal mucosa. In this study we investigated whether α-synuclein-preformed fibril (PFF) exposure could modulate the intestinal environment and induce rodent models replicating PD pathology. We first showed that PFF could be internalized into co-cultured Caco-2/HT29/Raji b cells in vitro. Furthermore, we demonstrated that PFF perfusion caused the intestinal inflammation and activation of enteric glial cells in an ex vivo intestinal organ culture and in an in vivo intestinal mouse coloclysis model. Moreover, we found that PFF exposure through regular coloclysis induced PD pathology in wild-type (WT) and A53T α-synuclein transgenic mice with various phenotypes. Particularly in A53T mice, PFF induced significant behavioral disorders, intestinal inflammation, α- synuclein deposition, microbiota dysbiosis, glial activation as well as degeneration of dopaminergic neurons in the substantia nigra. In WT mice, however, the PFF induced only mild behavioral abnormalities, intestinal inflammation, α-synuclein deposition, and glial activation, without significant changes in microbiota and dopaminergic neurons. Our results reveal the possibility of α-synuclein aggregates binding to the intestinal mucosa and modeling PD in mice. This study may shed light on the investigation and early intervention of the gut-origin hypothesis in neurodegenerative diseases.
Keywords: Parkinson’s disease; gut–brain axis; α-Synuclein; inflammation; microbiota; intestinal mouse coloclysis model

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