Toxic effects of amyloid fibrils on cell membranes: the importance of ganglioside GM1 - PubMed (original) (raw)

doi: 10.1096/fj.11-189381. Epub 2011 Nov 9.

Daniele Nosi, Mario Forzan, Edda Russo, Martino Calamai, Laura Pieri, Lucia Formigli, Franco Quercioli, Silvia Soria, Francesco Pavone, Jimmy Savistchenko, Ronald Melki, Massimo Stefani

Affiliations

• PMID: 22071505
• DOI: 10.1096/fj.11-189381

Toxic effects of amyloid fibrils on cell membranes: the importance of ganglioside GM1

Monica Bucciantini et al. FASEB J. 2012 Feb.

Abstract

The interaction of amyloid aggregates with the cell plasma membrane is currently considered among the basic mechanisms of neuronal dysfunction in amyloid neurodegeneration. We used amyloid oligomers and fibrils grown from the yeast prion Sup35p, responsible for the specific prion trait [PSI(+)], to investigate how membrane lipids modulate fibril interaction with the membranes of cultured H-END cells and cytotoxicity. Sup35p shares no homology with endogenous mammalian polypeptide chains. Thus, the generic toxicity of amyloids and the molecular events underlying cell degeneration can be investigated without interference with analogous polypeptides encoded by the cell genome. Sup35 fibrils bound to the cell membrane without increasing its permeability to Ca(2+). Fibril binding resulted in structural reorganization and aggregation of membrane rafts, with GM1 clustering and alteration of its mobility. Sup35 fibril binding was affected by GM1 or its sialic acid moiety, but not by cholesterol membrane content, with complete inhibition after treatment with fumonisin B1 or neuraminidase. Finally, cell impairment resulted from caspase-8 activation after Fas receptor translocation on fibril binding to the plasma membrane. Our observations suggest that amyloid fibrils induce abnormal accumulation and overstabilization of raft domains in the cell membrane and provide a reasonable, although not unique, mechanistic and molecular explanation for fibril toxicity.

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