Corti, RobertaCox, AlysiaCassina, ValeriaNardo, LucaSalerno, DomenicoMarrano, Claudia AdrianaMissana, NataliaAndreozzi, PatriziaSilva, Paulo JacobStellacci, FrancescoDal Magro, RobertaRe, FrancescaMantegazza, Francesco2020-05-032020-05-032020-05-032020-02-0110.3390/ijms21031066https://infoscience.epfl.ch/handle/20.500.14299/168558WOS:000522551606052The deposition of amyloid-beta (A beta) plaques in the brain is a significant pathological signature of Alzheimer's disease, correlating with synaptic dysfunction and neurodegeneration. Several compounds, peptides, or drugs have been designed to redirect or stop A beta aggregation. Among them, the trideca-peptide CWG-LRKLRKRLLR (mApoE), which is derived from the receptor binding sequence of apolipoprotein E, is effectively able to inhibit A beta aggregation and to promote fibril disaggregation. Taking advantage of Atomic Force Microscopy (AFM) imaging and fluorescence techniques, we investigate if the clustering of mApoE on gold nanoparticles (AuNP) surface may affect its performance in controlling A beta aggregation/disaggregation processes. The results showed that the ability of free mApoE to destroy preformed A beta fibrils or to hinder the A beta aggregation process is preserved after its clustering on AuNP. This allows the possibility to design multifunctional drug delivery systems with clustering of anti-amyloidogenic molecules on any NP surface without affecting their performance in controlling A beta aggregation processes.Biochemistry & Molecular BiologyChemistry, MultidisciplinaryBiochemistry & Molecular BiologyChemistryamyloid-betamapoeafmgold nanoparticlesatomic-force microscopysynaptic plasticityproteinoligomerizationfibrilsinhibitorsliposomesmechanismtoxicitytherapytext::journal::journal article::research article