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- Aleksis, R. (1)
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Aleksis, R.; Oleskovs, F.; Jaudzems, K.; Pahnke, J.; Biverstål, H.; Structural studies of amyloid-β peptides: Unlocking the mechanism of aggregation and the associated toxicity Biochimie 140, 176-192, (2017) DOI: 10.1016/j.biochi.2017.07.011
Alzheimer's disease (AD) is one of the most prevalent neurodegenerative diseases worldwide. Formation of amyloid plaques consisting of amyloid-β peptides (Aβ) is one of the hallmarks of AD. Several lines of evidence have shown a correlation between the Aβ aggregation and the disease development. Extensive research has been conducted with the aim to reveal the structures of the neurotoxic Aβ aggregates. However, the exact structure of pathological aggregates and mechanism of the disease still remains elusive due to complexity of the occurring processes and instability of various disease-relevant Aβ species. In this article we review up-to-date structural knowledge about amyloid-β peptides, focusing on data acquired using solution and solid state NMR techniques. Furthermore, we discuss implications from these structural studies on the mechanisms of aggregation and neurotoxicity.
Mansfeld, J.; Schöpfel, M.; Lorenz, J.; Trutschel, T.; Heilmann, I.; Brandt, W.; Ulbrich-Hofmann, R.; Probing selected structural regions in the secreted phospholipase A2 from Arabidopsis thaliana for their impact on stability and activity Biochimie 101, 60-66, (2014) DOI: 10.1016/j.biochi.2013.12.015
In contrast to the well characterized secreted phospholipases A2 (sPLA2) from animals, their homologues from plants have been less explored. Their production in purified form is more difficult, and no data on their stability are known. In the present paper, different variants of the sPLA2 isoform α from Arabidopsis thaliana (AtPLA2α) were designed using a new homology model with the aim to probe the impact of regions that are assumed to be important for stability and catalysis. Moreover tryptophan residues were introduced in critical regions to enable stability studies by fluorescence spectroscopy. The variants were expressed in Escherichia coli and the purified enzymes were analyzed to get first insights into the peculiarities of structure stability and structure activity relationships in plant sPLA2s in comparison with the well-characterized homologous enzymes from bee venom and porcine pancreas. Stability data of the AtPLA2 variants obtained by fluorescence or CD measurements of the reversible unfolding by guanidine hydrochloride and urea showed that all enzyme variants are less stable than the enzymes from animal sources although a similar tertiary core structure can be assumed based on molecular modeling. More extended loop structures at the N-terminus in AtPLA2α are suggested to be the main reasons for the much lower thermodynamic stabilities and cooperativities of the transition curves. Modifications in the N-terminal region (insertion, deletion, substitution by a Trp residue) exhibited a strong positive effect on activity whereas amino acid exchanges in other regions of the protein such as the Ca2+-binding loop and the loop connecting the two central helices were deleterious with respect to activity.