Funded Studies
This grant builds upon the research from a prior grant: In Vivo Assessment of Alpha-Synuclein Secretion
Objective/Rationale:
Recent data from our lab (Emmanouilidou et al, 2010) suggest that cell-produced physiologically secreted alpha-synuclein can cause the death of neuronal recipient cells. Although the pathophysiological role of the secreted alpha-synuclein forms remain largely unknown we have found that alpha-synuclein secretion depends on intracellular calcium concentrations and that involves exosomes. Using a highly sensitive, in-house ELISA, and in vivo microdialysis, we intend to examine the effects of pharmacological manipulation of specific cellular pathways on the secretion of alpha-synuclein. We are also planning to investigate the neuronal sites from which alpha-synuclein is secreted.
Project Description:
We will pharmacologically manipulate two fundamental non-classical secretory pathways, namely the ABC transporter-based and the exosome-based pathways using specific compounds administered locally in pre-clinical models through dialysis membrane.
Following guided cannula and probe implantation in the pre-clinical model, ISF will be collected hourly for 8 hours. For alpha-synuclein detection and quantification, microdialysis samples will be analysed by a novel ultra-sensitive ELISA assay.
In the second part of the project, we will use custom made cell-culture chambers in an attempt to segregate neurons into somal and neuritic compartments. Alpha-synuclein in the different compartments will be measured with the newly developed ELISA.
Relevance to Diagnosis/Treatment of Parkinson’s Disease:
Secreted alpha-synuclein may be a hitherto unrecognized agent that contributes to PD pathogenesis. It is possible that alpha-synuclein secretion serves to amplify and propagate PD-related pathology in a paracrine manner. We have found using in an in vitro cell model that alpha-synuclein is normally secreted via a non-classical exosomal pathway. Our new in vivo approach gives us the opportunity to rationally test agents that have been shown to manipulate specific cellular pathways involved in non-classical protein secretion. Our goal is to gain further insight into the mechanisms that affect alpha-synuclein levels extracellularlly and thus identify new therapeutic targets for PD.
Anticipated Outcome:
The current proposal will help investigate mechanisms of synuclein secretion in vivo. We anticipate that our work will shed light on the physiological mechanisms of alpha-synuclein secretion and understand how disregulation of such pathways may be linked to the pathogenesis of PD.
Progress Report
There is growing evidence supporting a role of extracellular alpha-synuclein in the initiation and/or the progression of Parkinson’s Disease (PD), possibly via a cell-to-cell spread of alpha-synuclein pathology. Using in vivo microdialysis coupled with an ultra-sensitive ELISA, we have previously shown that alpha-synuclein can be detected in pre-clinical and human brain parenchyma and as such it may have paracrine actions. To investigate the mechanism of alpha-synuclein secretion, we have now used reversed microdialysis to pharmacologically manipulate specific secretory pathways in vivo. Our data so far suggest that intracellular calcium can act as a potent regulator of extracellular alpha-synuclein levels. We have also investigated the neuronal sites of alpha-synuclein release by culturing primary cortical neurons in microfluidic compartmentalization chambers that efficiently separate axons from somata. We believe that understanding the mechanism underlying alpha-synuclein release would identify new potential targets that would allow specific manipulation of alpha-synuclein levels in the extracellular space. Interfering with these pathways can be considered as a therapeutic intervention for PD.
Presentations:
1. Poster presentation in the ISN/ESN 2011 23rd Biennal Meeting (August 29 – September 4, 2011), Athens, Greece
2. Poster presentation in the Satellite meeting of ISN/ESN 2011 23rd Biennal Meeting: “From genes to pathogenesis: The evolving spectrum of synucleinopathies”, 2-4 September, 2011, Naxos, Greece.
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