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Merck

Sources of biases in the in vitro testing of nanomaterials: the role of the biomolecular corona.

Nanoscale horizons (2024-04-02)
Valentina Castagnola, Valeria Tomati, Luca Boselli, Clarissa Braccia, Sergio Decherchi, Pier Paolo Pompa, Nicoletta Pedemonte, Fabio Benfenati, Andrea Armirotti
RESUMEN

The biological fate of nanomaterials (NMs) is driven by specific interactions through which biomolecules, naturally adhering onto their surface, engage with cell membrane receptors and intracellular organelles. The molecular composition of this layer, called the biomolecular corona (BMC), depends on both the physical-chemical features of the NMs and the biological media in which the NMs are dispersed and cells grow. In this work, we demonstrate that the widespread use of 10% fetal bovine serum in an in vitro assay cannot recapitulate the complexity of in vivo systemic administration, with NMs being transported by the blood. For this purpose, we undertook a comparative journey involving proteomics, lipidomics, high throughput multiparametric in vitro screening, and single molecular feature analysis to investigate the molecular details behind this in vivo/in vitro bias. Our work indirectly highlights the need to introduce novel, more physiological-like media closer in composition to human plasma to produce realistic in vitro screening data for NMs. We also aim to set the basis to reduce this in vitro-in vivo mismatch, which currently limits the formulation of NMs for clinical settings.

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Sigma-Aldrich
Anti-Rab7 antibody, Mouse monoclonal, ~2 mg/mL, clone Rab7-117, purified from hybridoma cell culture
Sigma-Aldrich
Monoclonal Anti-EEA1, (C-terminal) antibody produced in mouse, clone 2G2, purified immunoglobulin, buffered aqueous solution