BACKGROUND: A promising approach for treating Alzheimer's disease relies on the net efflux of the amyloid-β (Aβ) peptide from the brain to peripheral plasma, as a result of plasma Aβ clearance promoted by plasma removal and therapeutic albumin replacement. OBJECTIVE: To assess the binding of therapeutic albumin (Albutein, Grifols) to monomeric and aggregated Aβ according to methods previously tested on the interactions between Aβ and research-grade albumin. METHODS: Albumin integrity and the interactions with albumin stabilizers (octanoic acid and N-Ac-Trp) were assessed through one-dimensional (1D) 1H-NMR and saturation transfer difference (STD) NMR spectra. The interactions between monomeric Aβ1-40 and albumin were probed by 2D 1H-15 N HSQC spectra of labeled Aβ1-40. The formation of cross-β structured Aβ1-42 assemblies was monitored by ThT fluorescence. The interactions between self-assembled Aβ1-42 and albumin were probed by Trp fluorescence. RESULTS: NMR spectra indicated that both therapeutic and research-grade albumin are similarly well-folded proteins. No significant changes in either HSQC peak position or intensity were observed upon addition of albumin to 15N-labeled Aβ1-40, which rules out binding of albumin to monomeric Aβ with dissociation constant in the μM or lower range. When aggregated Aβ1-42 was added to albumin, quenching of Trp fluorescence was observed, which indicates albumin binding to Aβ1-42 aggregates. The relative potency of therapeutic albumin as an Aβ self-association inhibitor was in the same order of magnitude as research-grade albumin. CONCLUSIONS: Albutein inhibited Aβ self-association by selectively binding Aβ aggregates rather than monomers and by preventing further growth of the Aβ assemblies.
BACKGROUND: A promising approach for treating Alzheimer's disease relies on the net efflux of the amyloid-β (Aβ) peptide from the brain to peripheral plasma, as a result of plasma Aβ clearance promoted by plasma removal and therapeutic albumin replacement. OBJECTIVE: To assess the binding of therapeutic albumin (Albutein, Grifols) to monomeric and aggregated Aβ according to methods previously tested on the interactions between Aβ and research-grade albumin. METHODS: Albumin integrity and the interactions with albumin stabilizers (octanoic acid and N-Ac-Trp) were assessed through one-dimensional (1D) 1H-NMR and saturation transfer difference (STD) NMR spectra. The interactions between monomeric Aβ1-40 and albumin were probed by 2D 1H-15 N HSQC spectra of labeled Aβ1-40. The formation of cross-β structured Aβ1-42 assemblies was monitored by ThT fluorescence. The interactions between self-assembled Aβ1-42 and albumin were probed by Trp fluorescence. RESULTS: NMR spectra indicated that both therapeutic and research-grade albumin are similarly well-folded proteins. No significant changes in either HSQC peak position or intensity were observed upon addition of albumin to 15N-labeled Aβ1-40, which rules out binding of albumin to monomeric Aβ with dissociation constant in the μM or lower range. When aggregated Aβ1-42 was added to albumin, quenching of Trp fluorescence was observed, which indicates albumin binding to Aβ1-42 aggregates. The relative potency of therapeutic albumin as an Aβ self-association inhibitor was in the same order of magnitude as research-grade albumin. CONCLUSIONS: Albutein inhibited Aβ self-association by selectively binding Aβ aggregates rather than monomers and by preventing further growth of the Aβ assemblies.
Entities:
Keywords:
Alzheimer's disease; NMR; amyloid; amyloid-β peptide; oligomers; therapeutic albumin
Authors: Woosuk S Hur; Nima Mazinani; X J David Lu; Leeor S Yefet; James R Byrnes; Laura Ho; Ju Hun Yeon; Sam Filipenko; Alisa S Wolberg; Wilfred A Jefferies; Christian J Kastrup Journal: J Biol Chem Date: 2018-11-08 Impact factor: 5.157
Authors: Shubhabrata Mukherjee; Joshua C Russell; Daniel T Carr; Jeremy D Burgess; Mariet Allen; Daniel J Serie; Kevin L Boehme; John S K Kauwe; Adam C Naj; David W Fardo; Dennis W Dickson; Thomas J Montine; Nilufer Ertekin-Taner; Matt R Kaeberlein; Paul K Crane Journal: Alzheimers Dement Date: 2017-02-24 Impact factor: 21.566
Authors: Ekaterina A Litus; Alexey S Kazakov; Evgenia I Deryusheva; Ekaterina L Nemashkalova; Marina P Shevelyova; Aliya A Nazipova; Maria E Permyakova; Elena V Raznikova; Vladimir N Uversky; Sergei E Permyakov Journal: Int J Mol Sci Date: 2021-05-31 Impact factor: 5.923