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dc.contributor.authorTuusa, Jussien_US
dc.contributor.authorRaasakka, Arneen_US
dc.contributor.authorRuskamo, Sallaen_US
dc.contributor.authorKursula, Petrien_US
dc.PublishedTuusa J, Raasakka A, Ruskamo S, Kursula P. Myelin-derived and putative molecular mimic peptides share structural properties in aqueous and membrane-like environments. Multiple Sclerosis and Demyelinating Disorders. 2017;2:4eng
dc.description.abstractBackground: Despite intense research, the causes of various neurological diseases remain enigmatic to date. A role for viral or bacterial infection and associated molecular mimicry has frequently been suggested in the etiology of neurological diseases, including demyelinating autoimmune disorders, such as multiple sclerosis. Pathogen mimics of myelin-derived autoimmune peptides have been described in the literature and shown to induce myelin autoimmune responses in animal models. Methods: We carried out a structural study on myelin-derived peptides, and mimics thereof from various pathogens, in aqueous and membrane-like environments, using conventional and synchrotron radiation circular dichroism spectroscopy. A total of 13 peptides from the literature were studied, and 290 circular dichroism spectra were analysed. In addition, peptide structure predictions and vesicle aggregation assays were performed. Results: The results indicate a high level of similarity in the biophysical and folding properties of the peptides from either myelin proteins or proteins from pathogenic viruses or bacteria; essentially all of the studied peptides folded in the presence of lipid vesicles or under other membrane-mimicking conditions, which is a sign of membrane interaction. Many of the peptides presented remarkable similarities in their conformation in different environments. Conclusions: As most of the studied epitope segments in myelin proteins are associated with membrane-binding sites, our results support a view of molecular mimicry, involving lipid membrane interaction propensity and similar conformational properties, possibly playing a role in demyelinating disease. The results suggest mechanisms related to protein amphiphilicity and order-disorder transitions in the recognition of peptide epitopes in autoimmune demyelination.en_US
dc.publisherBioMed Centraleng
dc.rightsAttribution CC BYeng
dc.subjectLipid membraneeng
dc.subjectCD spectroscopyeng
dc.subjectMolecular mimicryeng
dc.titleMyelin-derived and putative molecular mimic peptides share structural properties in aqueous and membrane-like environmentsen_US
dc.typePeer reviewed
dc.typeJournal article
dc.rights.holderCopyright 2017 The Author(s)
dc.source.journalMultiple Sclerosis and Demyelinating Disorders

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