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1. Poly(Oxanorbornene)‐Protein Conjugates Prepared by Grafting‐to ROMP as Alternatives for PEG

   https://doi.org/10.1002/mabi.202300255  

   Davis, Elizabathe; Caparco, Adam A.; Steinmetz, Nicole F.; Pokorski, Jonathan K. (September 2023, Macromolecular Bioscience)

   PEGylation is the gold standard in protein‐polymer conjugation, improving circulation half‐life of biologics while mitigating the immune response to a foreign substance. However, preexisting anti‐PEG antibodies in healthy humans are becoming increasingly prevalent and elicitation of anti‐PEG antibodies when patients are administered with PEGylated therapeutics challenges their safety profile. In the current study, two distinct amine‐reactive poly(oxanorbornene) (PONB) imide‐based water‐soluble block co‐polymers are synthesized using ring‐opening metathesis polymerization (ROMP). The synthesized block‐copolymers include PEG‐based PONB‐PEG and sulfobetaine‐based PONB‐Zwit. The polymers are then covalently conjugated to amine residues of lysozyme (Lyz) and urate oxidase (UO) using a grafting‐to bioconjugation technique. Both Lyz‐PONB and UO‐PONB conjugates retained significant bioactivities after bioconjugation. Immune recognition studies of UO‐PONB conjugates indicated a comparable lowering of protein immunogenicity when compared to PEGylated UO. PEG‐specific immune recognition is negligible for UO‐PONB‐Zwit conjugates, as expected. These polymers provide a new alternative for PEG‐based systems that retain high levels of activity for the biologic while showing improved immune recognition profiles. 

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2. The molecular basis for hydrodynamic properties of PEGylated human serum albumin

   https://doi.org/10.1016/j.bpj.2024.05.019  

   Fleming, Patrick J; Correia, John J; Fleming, Karen G (May 2024, Biophysical Journal)

   Polyethylene glycol (PEG) conjugation provides a protective modification that enhances the pharmacokinetics and solubility of proteins for therapeutic use. A knowledge of the structural ensemble of these PEGylated proteins is necessary to understand the molecular details that contribute to their hydrodynamic and colligative properties. Because of the large size and dynamic flexibility of pharmaceutically important PEGylated proteins, the determination of structure is challenging. In addi- tion, the hydration of these conjugates that contain large polymers is difficult to determine with traditional methods that identify only first shell hydration water, which does not account for the complete hydrodynamic volume of a macromolecule. Here, we demonstrate that structural ensembles, generated by coarse-grained simulations, can be analyzed with HullRad and used to predict sedimentation coefficients and concentration-dependent hydrodynamic and diffusion nonideality coefficients of PEGylated proteins. A knowledge of these concentration-dependent properties enhances the ability to design and analyze new modified protein therapeutics. HullRad accomplishes this analysis by effectively accounting for the complete hydration of a macromolecule, including that of flexible polymers. 

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3. Transforming protein-polymer conjugate purification by tuning protein solubility

   https://doi.org/10.1038/s41467-019-12612-9  

   Baker, Stefanie L.; Munasinghe, Aravinda; Kaupbayeva, Bibifatima; Rebecca Kang, Nin; Certiat, Marie; Murata, Hironobu; Matyjaszewski, Krzysztof; Lin, Ping; Colina, Coray M.; Russell, Alan J. (December 2019, Nature Communications)

   Abstract Almost all commercial proteins are purified using ammonium sulfate precipitation. Protein-polymer conjugates are synthesized from pure starting materials, and the struggle to separate conjugates from polymer, native protein, and from isomers has vexed scientists for decades. We have discovered that covalent polymer attachment has a transformational effect on protein solubility in salt solutions. Here, protein-polymer conjugates with a variety of polymers, grafting densities, and polymer lengths are generated using atom transfer radical polymerization. Charged polymers increase conjugate solubility in ammonium sulfate and completely prevent precipitation even at 100% saturation. Atomistic molecular dynamic simulations show the impact is driven by an anti-polyelectrolyte effect from zwitterionic polymers. Uncharged polymers exhibit polymer length-dependent decreased solubility. The differences in salting-out are then used to simply purify mixtures of conjugates and native proteins into single species. Increasing protein solubility in salt solutions through polymer conjugation could lead to many new applications of protein-polymer conjugates. 

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4. Understanding the Adsorption of Peptides and Proteins onto PEGylated Gold Nanoparticles

   https://doi.org/10.3390/molecules26195788  

   Perera, Yasiru Randika; Xu, Joanna Xiuzhu; Amarasekara, Dhanush L.; Hughes, Alex C.; Abbood, Ibraheem; Fitzkee, Nicholas C. (October 2021, Molecules)

   Polyethylene glycol (PEG) surface conjugations are widely employed to render passivating properties to nanoparticles in biological applications. The benefits of surface passivation by PEG are reduced protein adsorption, diminished non-specific interactions, and improvement in pharmacokinetics. However, the limitations of PEG passivation remain an active area of research, and recent examples from the literature demonstrate how PEG passivation can fail. Here, we study the adsorption amount of biomolecules to PEGylated gold nanoparticles (AuNPs), focusing on how different protein properties influence binding. The AuNPs are PEGylated with three different sizes of conjugated PEG chains, and we examine interactions with proteins of different sizes, charges, and surface cysteine content. The experiments are carried out in vitro at physiologically relevant timescales to obtain the adsorption amounts and rates of each biomolecule on AuNP-PEGs of varying compositions. Our findings are relevant in understanding how protein size and the surface cysteine content affect binding, and our work reveals that cysteine residues can dramatically increase adsorption rates on PEGylated AuNPs. Moreover, shorter chain PEG molecules passivate the AuNP surface more effectively against all protein types. 

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5. Hidden hydrophobicity impacts polymer immunogenicity

   https://doi.org/10.1039/d2sc07047b  

   Yuan, Zhefan; McMullen, Patrick; Luozhong, Sijin; Sarker, Pranab; Tang, Chenjue; Wei, Tao; Jiang, Shaoyi (February 2023, Chemical Science)

   Antibodies against poly(ethylene glycol) (PEG) have been found to be the culprit of side reactions and efficacy loss of a number of PEGylated drugs. Fundamental mechanisms of PEG immunogenicity and design principles for PEG alternatives still have not been fully explored. By using hydrophobic interaction chromatography (HIC) under varied salt conditions, we reveal the “hidden” hydrophobicity of those polymers which are generally considered as hydrophilic. A correlation between the hidden hydrophobicity of a polymer and its polymer immunogenicity is observed when this polymer is conjugated with an immunogenic protein. Such a correlation of hidden hydrophobicity vs. immunogenicity for a polymer also applies to corresponding polymer–protein conjugates. Atomistic molecular dynamics (MD) simulation results show a similar trend. Based on polyzwitterion modification and with this HIC technique, we are able to produce extremely low-immunogenic protein conjugates as their hydrophilicity is pushed to the limit and their hydrophobicity is eliminated, breaking the current barriers of eliminating anti-drug and anti-polymer antibodies. 

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