The misfolding and aggregation of the protein α-synuclein (α-syn), which results in the formation of amyloid fibrils, is involved in the pathogenesis of Parkinson's disease and other synucleinopathies. The emergence of amyloid toxicity is associated with the formation of partially folded aggregation intermediates. Here, we engineered a class of binding proteins termed β-wrapins (β-wrap proteins) with affinity for α-synuclein (α-syn). The NMR structure of an α-syn:β-wrapin complex reveals a β-hairpin of α-syn comprising the sequence region α-syn(37-54). The β-wrapin inhibits α-syn aggregation and toxicity at substoichiometric concentrations, demonstrating that it interferes with the nucleation of aggregation.
Autophagy, a pathway primarily relevant for cell survival, and apoptosis, a process invariably leading to cell death, are the two main mechanisms of cellular self-destruction, which are essential in cell growth, neurodegeneration, tumor suppression, stress and immune response. Currently, a potential crosstalk between apoptosis and autophagy is subject to intensive investigations since recently some direct junctions became obvious. The respective protein-protein interaction network, however, remains to be elucidated in detail. The γ-aminobutyric acid type A (GABA A ) receptor-associated protein GABARAP belongs to a family of proteins implicated in intracellular transport events and was shown to be associated to autophagic processes. Using a phage display screening against the target protein GABARAP, we identified the proapoptotic protein Nix/Bnip3L to be a potential GABARAP ligand. In vitro binding studies, pull-down analysis, coimmunoprecipitation assays and colocalization studies confirmed a direct interaction of both proteins in mammalian cells.
A mirror image phage display approach was used to identify novel and highly specific ligands for Alzheimer's disease amyloid peptide Abeta(1-42). A randomized 12-mer peptide library presented on M13 phages was screened for peptides with binding affinity for the mirror image of Abeta(1-42). After four rounds of selection and amplification the peptides were enriched with a dominating consensus sequence. The mirror image of the most representative peptide (D-pep) was shown to bind Abeta(1-42) with a dissociation constant in the submicromolar range. Furthermore, in brain tissue sections derived from patients that suffered from Alzheimer's disease, amyloid plaques and leptomeningeal vessels containing Abeta amyloid were stained specifically with a fluorescence-labeled derivative of D-pep. Fibrillar deposits derived from other amyloidosis were not labeled by D-pep. Possible applications of this novel and highly specific Abeta ligand in diagnosis and therapy of Alzheimer's disease are discussed.
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