Expression & affinity analysis of recombinant RX against pathogenic α-synuclein

Background In the as of yet uncurable Parkinson´s disease aggregation of α-syn is an accelerator of pathogenesis. Oligomers of α-synuclein is considered to be neurotoxic hence blocking the endocytosis of aggregated α-syn is possibly a way of preventing pathogenesis. With a protein construct of the R...

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Bibliographic Details
Main Author: Simon, Isak
Format: Others
Language:English
Published: Uppsala universitet, Institutionen för farmaceutisk biovetenskap 2021
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Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-433566
Description
Summary:Background In the as of yet uncurable Parkinson´s disease aggregation of α-syn is an accelerator of pathogenesis. Oligomers of α-synuclein is considered to be neurotoxic hence blocking the endocytosis of aggregated α-syn is possibly a way of preventing pathogenesis. With a protein construct of the Receptor X (RX) previously shown to bind α-syn, it can be possible to bind soluble aggregated α-syn and decrease neuron endocytosis.  Aim The aim of this study was to express, purify and trimerize two different protein constructs of RX to study the binding to α-syn monomers & oligomers and if the proteins have higher affinity to α-syn oligomers. Methods In this study two RX constructs was produced with mammalian cell transfection and purified with Strep-Tactin affinity chromatography; D1, D123mut and D123 which affinity to α-syn monomers and oligomers were studied with ELISAs. Indirect ELISAs were optimized and conducted, a competitive ELISA with D123 was tested with poor reliability.  Results The results show that D1 could not be determined pure enough to examine its α-syn binding ability. D123mut was pure enough for ELISAs but did not show adequate binding to α-syn. D123 did show binding to α-syn in an indirect ELISA.  Conclusion The results were not as promising as expected and did not distinctly help strengthen the theory of a recombinant RX protein as a viable drug. Although there is potential, optimization of both protein constructs and methods used is essential for future studies of RX as a therapeutic protein.