The olfactory bulb as the entry site for prion-like propagation in neurodegenerative diseases

Rey, Nolwen L.; Wesson, Daniel W.; Brundin, Patrik

doi:10.1016/j.nbd.2016.12.013

Cited by 212 publications

(213 citation statements)

References 495 publications

(625 reference statements)

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“…Moreover, intracerebral injections of α-syn into the cortical areas results in pathological spreading from the cortex to the striatum, thalamus, hypothalamus, locus coeruleus, raphe nucleus, reticular formation, cerebellum, and the spinal cord (Luk et al 2012b; Mougenot et al 2012; Watts et al 2013). Being one of the main predicted entry sites for aggregated α-syn, the olfactory bulb may be quite critical for α-syn propagation (Rey et al 2016c). Indeed, olfactory bulb injections trigger the spread of aggregated α-syn in an anatomical pattern across several brain areas including the frontal, entorhinal, perirhinal, and parietal cortex, as well as the striatum, amygdala, substantia nigra, and hippocampus (Rey et al 2016b).…”

Section: With Respect To the Connectome Is There A Difference In Promentioning

confidence: 99%

“…In what was suggested to be the earliest phases of the disease (Braak stage 1 and 2, which actually precede the onset of the classical motor symptoms), α-syn-immunopositive pathology was found in two distinct brain areas, the dorsal motor nucleus of the vagal nerve and the anterior olfactory nucleus. Therefore, the authors proposed that these locations might be initiation sites that direct the spread of the pathology stereotypically throughout the brain (reviewed in (Rey et al 2016c)). In the same timeframe, Hardy published a permissive templating theory regarding neurodegenerative diseases including Parkinson’s (Hardy 2005).…”

Section: Introductionmentioning

confidence: 99%

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The concept of alpha-synuclein as a prion-like protein: ten years after

2018

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Parkinson's disease is characterized by the loss of nigrostriatal dopaminergic signaling and the presence of alpha-synuclein aggregates (also called Lewy bodies and neurites) throughout the brain. In 2003, Braak and colleagues created a staging system for Parkinson's disease describing the connection between the alpha-synuclein pathology and disease severity. Later, they suggested that the pathology might initially be triggered by exogenous insults targeting the gut and olfactory system. In 2008, we and other groups documented Lewy pathology in grafted neurons in people with Parkinson's disease who had been transplanted over a decade prior to autopsy. We proposed that the Lewy pathology in the grafted neurons was the result of permissive templating or prion-like spread of alpha-synuclein pathology from neurons in the host to those in the grafts. During the following ten years, several studies described the transmission of alpha-synuclein pathology between neurons, both in cell culture and in experimental animals. Recent research has also begun to identify underlying molecular mechanisms. Collectively, these experimental studies tentatively support the idea that the progression from one Braak stage to the next is the consequence of prion-like propagation of Lewy pathology. However, definitive proof that intercellular propagation of alpha-synuclein pathology occurs in Parkinson's disease cases has proven difficult to secure. In this review, we highlight several open questions that currently prevent us from concluding with certainty that prion-like transfer of alpha-synuclein contributes to the progression of Parkinson's disease.

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Section: With Respect To the Connectome Is There A Difference In Promentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The concept of alpha-synuclein as a prion-like protein: ten years after

2018

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“…Due to the proposed triggering of an increase in neuronal and extracellular alpha-synuclein, infections with certain gut pathogens can constitute a risk factor for PD. A similar reasoning might apply to the olfactory system, which is exposed to numerous pathogens via the olfactory epithelium and is suggested to be one of the first sites of alpha-synuclein aggregation in PD [39]. This raises the possibility that PD is not the result of a select causative agent(s), but rather a failure in the systems in place that should protect against alpha-synuclein aggregation.…”

Section: Editorialmentioning

confidence: 97%

Alpha-Synuclein to the Rescue: Immune Cell Recruitment by Alpha-Synuclein during Gastrointestinal Infection

Labrie

Brundin²

2017

J Innate Immun

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Intraneuronal accumulation of misfolded alpha-synuclein in the central and peripheral nervous systems is strongly linked to Parkinson disease (PD) and other related synucleinopathies. In rare inherited forms of PD, point mutations or gene multiplications mediate the formation of alpha-synuclein protein aggregates. However, in most PD cases it is presumed that the combined effects of ageing and environmental factors drive the formation of alpha-synuclein aggregates. Despite advances regarding alpha-synuclein pathobiology, the normal functions of this protein and factors that regulate its expression are not well understood. We discuss a recent study reporting that viral infection induces alpha-synuclein expression in neurons of the gastrointestinal tract. Alpha-synuclein levels increased during norovirus infection in the duodenum of children. In an in vitro paradigm, monomeric and oligomeric alpha-synuclein acted as chemoattractants for neutrophils and monocytes, and promoted the maturation of dendritic cells. This suggests that alpha-synuclein facilitates immune responses to infection. We explore the possibility that intestinal infections, and associated inflammation, place individuals at increased risk of PD by increasing alpha-synuclein levels and promoting the formation of alpha-synuclein aggregates that propagate in a prion-like fashion via the vagal nerve to the brainstem.

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“…A more recently developed type of model involves the injection of α‐synuclein fibrils into the brain, which triggers a protracted development of α‐synuclein aggregates in interconnected brain regions, followed by neurodegeneration in some of the affected brain regions (eg, loss of nigral dopamine neurons after injection of fibrils into the striatum) . An advantage with this last paradigm is that it is possible to mimic some of the neuropathology and functional deficits seen in prodromal PD by injecting the fibrils into the olfactory bulb …”

Section: Therapeutic Approaches Targeting α‐Synucleinmentioning

confidence: 99%

Targeted Therapies for Parkinson's Disease: From Genetics to the Clinic

Sardi¹,

2018

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The greatest unmet medical need in Parkinson's disease (PD) is treatments that slow the relentless progression of symptoms. The discovery of genetic variants causing and/or increasing the risk for PD has provided the field with a new arsenal of potential therapies ready to be tested in clinical trials. We highlight 3 of the genetic discoveries (α‐synuclein, glucocerebrosidase, and leucine‐rich repeat kinase) that have prompted new therapeutic approaches now entering the clinical stages. We are at an exciting juncture in the journey to developing disease‐modifying treatments based on knowledge of PD genetics and pathology. This review focuses on therapeutic paradigms that are under clinical development and highlights a wide range of key outstanding questions in PD. © 2018 The Authors. Movement Disorders published by Wiley Periodicals, Inc. on behalf of International Parkinson and Movement Disorder Society.

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The olfactory bulb as the entry site for prion-like propagation in neurodegenerative diseases

Cited by 212 publications

References 495 publications

The concept of alpha-synuclein as a prion-like protein: ten years after

The concept of alpha-synuclein as a prion-like protein: ten years after

Alpha-Synuclein to the Rescue: Immune Cell Recruitment by Alpha-Synuclein during Gastrointestinal Infection

Targeted Therapies for Parkinson's Disease: From Genetics to the Clinic

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