Abstract
Amyloid oligomers are believed to play causal roles in several types of amyloid-related neurodegenerative diseases. Several different types of amyloid oligomers have been reported that differ in morphology, size, or toxicity, raising the question of the pathological significance and structural relationships between different amyloid oligomers. Annular protofibrils (APFs) have been described in oligomer preparations of many different amyloidogenic proteins and peptides as ring-shaped or pore-like structures. They are interesting because their pore-like morphology is consistent with numerous reports of membrane-permeabilizing activity of amyloid oligomers. Here we report the preparation of relatively homogeneous preparations of APFs and an antiserum selective for APFs (alphaAPF) compared with prefibrillar oligomers (PFOs) and fibrils. PFOs appear to be precursors for APF formation, which form in high yield after exposure to a hydrophobic-hydrophilic interface. Surprisingly, preformed APFs do not permeabilize lipid bilayers, unlike the precursor PFOs. APFs display a conformation-dependent, generic epitope that is distinct from that of PFOs and amyloid fibrils. Incubation of PFOs with phospholipids vesicles results in a loss of PFO immunoreactivity with a corresponding increase in alphaAPF immunoreactivity, suggesting that lipid vesicles catalyze the conversion of PFOs into APFs. The annular anti-protofibril antibody also recognizes heptameric alpha-hemolysin pores, but not monomers, suggesting that the antibody recognizes an epitope that is specific for a beta barrel structural motif.
Highlights
Many of the mutations either destabilize the natively folded state, produce more amyloidogenic protein, or they increase its propensity to aggregate [3]
Liposomes greatly accelerates the loss of A11 immunoreactivity with a corresponding increase in ␣annular protofibrils (APFs) immunoreactivity (Fig. 8). This indicates that prefibrillar oligomers (PFOs) can convert to APFs under more physiological conditions and suggests that the interaction of PFOs with membranes catalyzes their conformational conversion into annular protofibril pores, which may account for their ability to permeabilize membranes
B, incubation of ␣-hemolysin with deoxycholate promotes the 250-kDa heptameric pores stained by ␣APF in a time-dependent fashion. These results indicate that APFs represent a distinct class of amyloid oligomer that has a unique underlying structural motif that APFs from several types of amyloids share with bacterial pore-forming toxins (PFTs)
Summary
Many of the mutations either destabilize the natively folded state, produce more amyloidogenic protein, or they increase its propensity to aggregate [3]. 3 The abbreviations used are: PFO, prefibrillar oligomer; APF, annular protofibrils; ␣APF, anti-APF; PFT, pore-forming toxin; MTT,
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
