posted on 2015-05-13, 00:00authored byLuca Guerrini, Raul Arenal, Benedetta Mannini, Fabrizio Chiti, Roberto Pini, Paolo Matteini, Ramon A. Alvarez-Puebla
Protein
misfolded proteins are among the most toxic endogenous species of
macromolecules. These chemical entities are responsible for neurodegenerative
disorders such as Alzheimer’s, Parkinson’s, Creutzfeldt–Jakob’s
and different non-neurophatic amyloidosis. Notably, these oligomers
show a combination of marked heterogeneity and low abundance in body
fluids, which have prevented a reliable detection by immunological
methods so far. Herein we exploit the selectivity of proteins to react
with metallic ions and the sensitivity of surface-enhanced Raman spectroscopy
(SERS) toward small electronic changes in coordination compounds to
design and engineer a reliable optical sensor for protein misfolded
oligomers. Our strategy relies on the functionalization of Au nanoparticle-decorated
polystyrene beads with an effective metallorganic Raman chemoreceptor,
composed by Al3+ ions coordinated to 4-mercaptobenzoic
acid (MBA) with high Raman cross-section, that selectively binds aberrant
protein oligomers. The mechanical deformations of the MBA phenyl ring
upon complexation with the oligomeric species are registered in its
SERS spectrum and can be quantitatively correlated with the concentration
of the target biomolecule. The SERS platform used here appears promising
for future implementation of diagnostic tools of aberrant species
associated with protein deposition diseases, including those with
a strong social and economic impact, such as Alzheimer’s and
Parkinson’s diseases.