Evaluating the impact of chaotropic salts on protein corona formation on polyethylene glycol-b-polylactic acid polymersomes
Owen Tabah, Daniel Nichols, Ashley Blake, Grace Witt, Chau-wen Chou, Jessica Larsen

TL;DR
This study shows how different salts affect the protein layer that forms on polymer nanoparticles, which could help design better drug delivery systems.
Contribution
The paper introduces a novel approach to engineer protein coronas on polymersomes using Hofmeister series salts.
Findings
Divalent cations like calcium and magnesium significantly alter the protein corona composition on PEG-b-PLA polymersomes.
Ionic environment changes the size and surface chemistry of PEG-b-PLA polymersomes.
Low molecular weight PEG coatings are influenced by ions despite lacking ionizable groups.
Abstract
Polymersomes (PS) are a class of hollow polymeric nanoparticle vesicles made of amphiphilic block co-polymers that self-assemble via hydrophobic interactions. One of the significant unsung challenges for their translation is the uncontrolled formation of the protein corona, which can influence PS biodistribution, cellular uptake, and immune recognition. Despite the major benefits associated with PS, no studies have yet explored engineering their protein corona. Evidence suggests that the confirmation of polyethylene glycol (PEG) chains, which can vary in response to Hofmeister series salts, can affect protein corona composition. Here, we investigated the impact of different Hofmeister series salt ions, focusing on increasing chaotropic salts [NaCl (Na+) < CaCl2 (Ca2+) < MgCl2 (Mg2+)] on the biomolecular identity of PEG-b-polylactic acid (PLA) PS after incubation in serum. We observed…
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Taxonomy
TopicsMass Spectrometry Techniques and Applications · Hemoglobin structure and function · Petroleum Processing and Analysis
