Urinary tract infections trigger synucleinopathy via the innate immune response.

Symptoms in the urogenital organs are common in multiple system atrophy (MSA), also in the years preceding the MSA diagnosis. It is unknown how MSA is triggered and these observations in prodromal MSA led us to hypothesize that synucleinopathy could be triggered by infection of the genitourinary tract causing ɑ-synuclein (ɑSyn) to aggregate in peripheral nerves innervating these organs. As a first proof that peripheral infections could act as a trigger in MSA, this study focused on lower urinary tract infections (UTIs), given the relevance and high frequency of UTIs in prodromal MSA, although other types of infection might also be important triggers of MSA. We performed an epidemiological nested-case control study in the Danish population showing that UTIs are associated with future diagnosis of MSA several years after infection and that it impacts risk in both men and women. Bacterial infection of the urinary bladder triggers synucleinopathy in mice and we propose a novel role of ɑSyn in the innate immune system response to bacteria. Urinary tract infection with uropathogenic E. coli results in the de novo aggregation of ɑSyn during neutrophil infiltration. During the infection, ɑSyn is released extracellularly from neutrophils as part of their extracellular traps. Injection of MSA aggregates into the urinary bladder leads to motor deficits and propagation of ɑSyn pathology to the central nervous system in mice overexpressing oligodendroglial ɑSyn. Repeated UTIs lead to progressive development of synucleinopathy with oligodendroglial involvement in vivo. Our results link bacterial infections with synucleinopathy and show that a host response to environmental triggers can result in ɑSyn pathology that bears semblance to MSA.

Upregulation of α-synuclein following immune activation: Possible trigger of Parkinson's disease.

Alpha-synuclein (α-syn) has been suggested to have many functions including, vesicle transport in neurons, transcriptional regulator, modulator of immune cell maturation and response, and a role as an antimicrobial peptide. This protein forms insoluble aggregates, called Lewy bodies, in several neurodegenerative diseases, termed synucleinopathies, including Parkinson's disease (PD), Multiple System Atrophy, and Lewy Body Dementia, and aggregates are also commonly found in Alzheimer's disease. Moreover, multiplications and point mutations in the gene cause rare autosomal dominant forms of parkinsonism, which resemble sporadic PD. It has been suggested that the accumulation of α-syn in the monomeric state followed by aggregation of the protein and seeding of further pathogenic α-syn aggregates are key steps in the pathogenesis of synucleinopathies. The triggers of α-syn aggregation in neurodegeneration are unknown, but inflammation caused by bacterial and viral pathogens or exposure to environmental toxins have been implicated. The purpose of this review is to present emerging evidence that α-syn may play a role in the immune response to pathogens. We present recent findings suggesting that upregulation of α-syn levels is a normal response to infections. We propose that under certain conditions (e.g., dysregulated inflammatory responses due to genetic predisposition and aging), monomeric α-syn will form oligomers that are taken up by nerve endings and undergo axonal transport to the central nervous system, where they can aggregate into pathogenic fibrils. Under unfavorable conditions, we suggest that this process can trigger neurodegenerative disease. Therefore, a deeper understanding of the roles of α-syn in the immune system could provide crucial insights into the origins of synucleinopathies.