We showed that the genetically engineered carrier-protein albebetin and its biologically active constructs with interferon-alpha(2) octapeptide LKEKKYSP or differentiation factor hexapeptide TGENHR are inherently highly amyloidogenic at physiological pH. The kinetics of fibrillation were monitored by thioflavine-T (ThT) binding and the morphological changes by atomic force microscopy. Fibrillation proceeds via multiple pathways and includes a hierarchy of amyloid structures ranging from oligomers to protofilaments and fibrils. Comparative height and volume microscopic measurements allowed us to identify two distinct types of oligomeric intermediates: pivotal oligomers ca. 1.2 nm in height comprised of 10-12 monomers and on-pathway amyloid-competent oligomers ca. 2 nm in height constituted of 26-30 molecules. The former assemble into chains and rings with "bead-on-string morphology", in which a "bead" corresponds to an individual oligomer. Once formed, the rings and chains remain in solution simultaneously with fibrils. The latter give rise to protofilaments and fibrils, and their formation is concomitant with an increasing level of ThT binding. The amyloid nature of filamentous structures was confirmed by a pronounced ThT and Congo red binding and beta-sheet-rich far-UV circular dichroism. We suggest that transformation of the pivotal oligomers into the amyloid-prone ones is a limiting stage in amyloid assembly. Peptides, either fused to albebetin or added into solution, and an increased ionic strength promote fibrillation of albebetin (net charge of -12) by counterbalancing critical electrostatic repulsions. This finding demonstrates that the fibrillation of newly designed polypeptide-based products can produce multimeric amyloid species with a potentially "new" functionality, raising questions about their safety.
We have found an increased level of serum antibodies to the prefibrillar structures of both Aβ(25–35) peptide and human lysozyme in Alzheimer’s disease (AD) patients compared to age-matched controls, indicating that autoimmunity is implicated in AD. In the serum of AD patients with a long-term duration (>15 years) the titer of serum antibodies to aggregates of Aβ(25–35) peptide increased by approximately 5-fold, whilst the antibody titer to lysozyme protofilaments decreased by approximately 8-fold compared to patients with AD duration of <5 years. The content of immunoglobulins of the A, G and M types declined, particularly in AD duration of >15 years. An increase in the concentration of immune complexes and higher lysozyme activity was detected in the serum of all patients and this was suggestive of an inflammatory reaction. We propose that the autoimmune response to different amyloid structures in AD can be viewed as a clearance pathway targeting amyloid development. Autoimmune response can be exploited as a marker of ongoing protein aggregation and hence be used as a diagnostic feature of AD.
Prefibrillar cytotoxicity was suggested as a common amyloid characteristic. We showed two types of albebetin prefibrillar oligomers are formed during incubation at pH 7.3. Initial round-shaped oligomers consist of 10-15 molecules determined by atomic force microscopy, do not bind thioflavin-T and do not affect viability of granular neurons and SH-SY5Y cells. They are converted into ca. 30-40-mers possessing cross-b-sheet and reducing viability of neuronal cells. Neither monomers nor fibrils possess cytotoxicity. We suggest that oligomeric size is important for stabilising cross-b-sheet core critical for cytotoxicity. As albebetin was used as a carrier-protein for drug delivery, examination of amyloidogenicity is required prior polypeptide biomedical applications.
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