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Abstract Over 80% of biologic drugs, and 90% of vaccines, require temperature-controlled conditions throughout the supply chain to minimize thermal inactivation and contamination. This cold chain is costly, requires stringent oversight, and is impractical in remote environments. Here, we report chemical dispersants that non-covalently solvate proteins within fluorous liquids to alter their thermodynamic equilibrium and reduce conformational flexibility. This generates non-aqueous, fluorine-based liquid protein formulations that biochemically rigidify protein structure to yield thermally stable biologics at extreme temperatures (up to 90 °C). These non-aqueous formulations are impervious to contamination by microorganismal pathogens, degradative enzymes, and environmental impurities, and display comparable pre-clinical pharmacokinetics and safety profiles to standard saline protein samples. As a result, we deliver a fluorochemical formulation paradigm that may limit the need for cold chain logistics of protein reagents and biopharmaceuticals.more » « less
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Singh, Harminder; Lawanprasert, Atip; Utkarsh; Pimcharoen, Sopida; Dewan, Arshiya; Rahoi, Dane; Kirimanjeswara, Girish_S; Medina, Scott_H (, ACS Applied Materials & Interfaces)
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Lawanprasert, Atip; Sloand, Janna_N; González_Vargas, Mariangely; Singh, Harminder; Eldor, Tomer; Miller, Michael_A; Pimcharoen, Sopida; Wang, Jian; Leighow, Scott_M; Pritchard, Justin_R; et al (, ChemBioChem)Abstract Although rarely used in nature, fluorine has emerged as an important elemental ingredient in the design of proteins with altered folding, stability, oligomerization propensities, and bioactivity. Adding to the molecular modification toolbox, here we report the ability of privileged perfluorinated amphiphiles to noncovalently decorate proteins to alter their conformational plasticity and potentiate their dispersion into fluorous phases. Employing a complementary suite of biophysical, in‐silico and in‐vitro approaches, we establish structure‐activity relationships defining these phenomena and investigate their impact on protein structural dynamics and intracellular trafficking. Notably, we show that the lead compound, perfluorononanoic acid, is 106times more potent in inducing non‐native protein secondary structure in select proteins than is the well‐known helix inducer trifluoroethanol, and also significantly enhances the cellular uptake of complexed proteins. These findings could advance the rational design of fluorinated proteins, inform on potential modes of toxicity for perfluoroalkyl substances, and guide the development of fluorine‐modified biologics with desirable functional properties for drug discovery and delivery applications.more » « less
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