by Keyword: Amyloid fibril structure
Valle-Delgado, J. J., Alfonso-Prieto, M., de Groot, N. S., Ventura, S., Samitier, J., Rovira, C., Fernàndez-Busquets, X., (2010). Modulation of A beta(42) fibrillogenesis by glycosaminoglycan structure FASEB Journal , 24, (11), 4250-4261
The role of amyloid beta (A beta) peptide in the onset and progression of Alzheimer's disease is linked to the presence of soluble A beta species. Sulfated glycosaminoglycans (GAGs) promote A beta fibrillogenesis and reduce the toxicity of the peptide in neuronal cell cultures, but a satisfactory rationale to explain these effects at the molecular level has not been provided yet. We have used circular dichroism, Fourier transform infrared spectroscopy, fluorescence microscopy and spectroscopy, protease digestion, atomic force microscopy (AFM), and molecular dynamics simulations to characterize the association of the 42-residue fragment A beta(42) with sulfated GAGs, hyaluronan, chitosan, and poly(vinyl sulfate) (PVS). Our results indicate that the formation of stable A beta(42) fibrils is promoted by polymeric GAGs with negative charges placed in-frame with the 4.8-angstrom separating A beta(42) monomers within protofibrillar beta-sheets. Incubation of A beta(42) with excess sulfated GAGs and hyaluronan increased amyloid fibril content and resistance to proteolysis 2- to 5-fold, whereas in the presence of the cationic polysaccharide chitosan, A beta(42) fibrillar species were reduced by 25% and sensitivity to protease degradation increased similar to 3-fold. Fibrils of intermediate stability were obtained in the presence of PVS, an anionic polymer with more tightly packed charges than GAGs. Important structural differences between A beta(42) fibrils induced by PVS and A beta(42) fibrils obtained in the presence of GAGs and hyaluronan were observed by AFM, whereas mainly precursor protofibrillar forms were detected after incubation with chitosan. Computed binding energies per peptide from -11.2 to -13.5 kcal/mol were calculated for GAGs and PVS, whereas a significantly lower value of -7.4 kcal/mol was obtained for chitosan. Taken together, our data suggest a simple and straightforward mechanism to explain the role of GAGs as enhancers of the formation of insoluble A beta(42) fibrils trapping soluble toxic forms.
JTD Keywords: Alzheimer's disease, Amyloid fibril structure, Fibrillogenesis enhancers and inhibitors, Polysaccharides