CONFORMATIONAL CONVERSION during CONTROLLED OLIGOMERIZATION into NON-AMYLOGENIC PROTEIN NANOPARTICLES

SÁNCHEZ, JULIETA M; SÁNCHEZ-GARCÍA, LAURA; PESARRODONA, MIREIA; SERNA, NAROA; SÁNCHEZ-CHARDI, ALEJANDRO; UNZUETA, UGUTZ; MANGUES, RAMÓN; VAZQUEZ, ESTHER; VILLAVERDE, ANTONIO

BIOMACROMOLECULES

AMER CHEMICAL SOC

Año: 2018

1525-7797

Protein materials are rapidly gaining interest in materials sciences and nanomedicine because of their intrinsic biocompatibility and full biodegradability. The controlled construction of supramolecular entities relies on the controlled oligomerization of individual polypeptides, achievable through different strategies. Because of the potential toxicity of amyloids, those based on alternative molecular organizations are particularly appealing, but the structural bases on non-amylogenic oligomerization remain poorly studied. We have applied spectrofluorimetry and spectropolarimetry to identify the conformational conversion during the oligomerization of His-tagged cationic stretches into regular nanoparticles ranging around 11 nm, useful for tumor-targeted drug delivery. We demonstrate that the novel conformation acquired by the proteins, as building blocks of these supramolecular assemblies, shows different extents of compactness and results in a beta structure enrichment that enhances their structural stability. The conformational profiling presented here offers clear clues for understanding and tailoring the process of nanoparticle formation through the use of cationic and histidine rich stretches, in the context of protein materials usable in advanced nanomedical strategies.