Silver-nanoparticles as plasmon-resonant enhancers for eumelanin's photoacoustic signal in a self-structured hybrid nanoprobe.

Developing safe and high efficiency contrast tools is an urgent need to allow in vivo applications of photoacoustics (PA), an emerging biomolecular imaging methodology, with poor invasiveness, deep penetration, high spatial resolution and excellent endogenous contrast. Eumelanins hold huge promise as biocompatible, endogenous photoacoustic contrast agents. However, their huge potential is still unexplored due to the difficulty to achieve at the same time poor aggregation in physiologic environment and high PA contrast. This study addresses both issues through the design of a biocompatible photoacoustic nanoprobe, named MelaSil_Ag-NPs, relying on silica-templated eumelanin formation as well as eumelanins redox and metal chelating properties to reduce Ag+ ions and control the growth of generated metal nanoparticles. This strategy allowed self-structuring of the system into a core-shell architecture, where the Ag core was found to boost PA signal, despite the poor eumelanin content. Obtained hybrid nanoplatforms, showed stable photoacoustic properties even under long irradiation. Furthermore, conjugation with rhodamine isothiocyanate allowed particles detection through fluorescent imaging proving their multifunctional potentialities. In addition, they were stable towards aggregation and efficiently endocytosed by human pancreatic cancer cells (BxPC3 and Panc-1) displaying no significant cytotoxicity. Such numerous features prove huge potential of those nanoparticles as a multifunctional platform for biomedical applications. Self-structuring of Silica-Eumelanin-Ag nanoparticles into a hybrid SiO 2 -Mel shell@Ag core architecture led to a huge improvement of photoacoustic signal. Unlabelled Image • Eumelanin photoacoustic properties are exploited to produce bioinspired photoacoustic nanoprobes. • In situ formation of silica-melanin‑silver leads to a self-structured hybrid nanoprobe. • Silver nanoparticles enhance intrinsic melanin photooacoustic signal. • Hybrid silica-eumelanin‑silver nanoprobes combine enhanced photoacoustic signal and high stability in biological media. [ABSTRACT FROM AUTHOR]