Abstract
Aggregates of amyloid-β (Aβ) peptides have been implicated in the etiology of Alzheimer disease. Among the different forms of Aβ aggregates, low molecular weight species ranging between ~2- and 50-mers, also called "soluble oligomers," have emerged as the species responsible for early synaptic dysfunction and neuronal loss. Emerging evidence suggests that the neurotoxic oligomers need not be formed along the obligatory nucleation-dependant fibril formation pathway. In our earlier work, we reported the isolation of one such "off-pathway" 12-18-mer species of Aβ42 generated from fatty acids called large fatty acid-derived oligomers (LFAOs) (Kumar, A., Bullard, R. L., Patel, P., Paslay, L. C., Singh, D., Bienkiewicz, E. A., Morgan, S. E., and Rangachari, V. (2011) PLoS One 6, e18759). Here, we report the physiochemical aspects of LFAO-monomer interactions as well as LFAO-LFAO associations in the presence of interfaces. We discovered that LFAOs are a replicating strain of oligomers that recruit Aβ42 monomers and quantitatively convert them into LFAO assemblies at the expense of fibrils, a mechanism similar to prion propagation. We also found that in the presence of hexane-buffer or chloroform-buffer interfaces LFAOs are able to associate with themselves to form larger but non-fibrillar aggregates. These results further support the hypothesis that low molecular weight oligomers can be generated via non-fibril formation pathways. Furthermore, the unique replicating property of off-pathway oligomers may hold profound significance for Alzheimer disease pathology.
Highlights
Oligomers of amyloid- peptides are implicated in the etiology of Alzheimer disease
We showed that A42 upon incubation with varying concentrations of non-esterified fatty acid (NEFA) generates two distinct types of oligomers, large fatty acid-derived oligomers (LFAOs) (12–18-mers) and small fatty acidderived oligomers (4 –5-mers), at near and above critical micelle concentrations of NEFA, respectively [1]
We indicated that LFAOs can be isolated using Superdex-75 size exclusion chromatography (SEC)
Summary
Oligomers of amyloid- peptides are implicated in the etiology of Alzheimer disease. Results: Specific “off-pathway” oligomers of A42 show unique replication properties upon interacting with monomers. We found that in the presence of hexane-buffer or chloroform-buffer interfaces LFAOs are able to associate with themselves to form larger but non-fibrillar aggregates These results further support the hypothesis that low molecular weight oligomers can be generated via non-fibril formation pathways. Studies have indicated that soluble oligomers, not the plaque load, in both cell culture and transgenic animal models are toxic and better correlate with the level of cognitive disability (8 –10) Several such observations suggest that low molecular weight (LMW) “soluble oligomers” ranging between ϳ2- and 50-mers are involved in the early synaptic dysfunction in AD [3, 5, 7, 11]. It is becoming evident from many recent reports that there are alternative
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