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1. Structure of an anti-PEG antibody reveals an open ring that captures highly flexible PEG polymers

   https://doi.org/10.1038/s42004-020-00369-y  

   Huckaby, Justin T.; Jacobs, Tim M.; Li, Zhongbo; Perna, Robert J.; Wang, Anting; Nicely, Nathan I.; Lai, Samuel K. (September 2020, Communications Chemistry)

   Abstract Polyethylene glycol (PEG) is a polymer routinely used to modify biologics and nanoparticles to prolong blood circulation and reduce immunogenicity of the underlying therapeutic. However, several PEGylated therapeutics induce the development of anti-PEG antibodies (APA), leading to reduced efficacy and increased adverse events. Given the highly flexible structure of PEG, how APA specifically bind PEG remains poorly understood. Here, we report a crystal structure illustrating the structural properties and conformation of the APA 6-3 Fab bound to the backbone of PEG. The structure reveals an open ring-like sub-structure in the Fab paratope, whereby PEG backbone is captured and then stabilized via Van der Waals interactions along the interior and exterior of the ring paratope surface. Our finding illustrates a strategy by which antibodies can bind highly flexible repeated structures that lack fixed conformations, such as polymers. This also substantially advances our understanding of the humoral immune response generated against PEG. 

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2. Comparison of Cyclic and Linear PEG Conjugates

   https://doi.org/10.1021/acs.bioconjchem.4c00202  

   Kunkel, Grace_E; Zhou, Qingyang; Treacy, Joseph_W; Montgomery, Hayden_R; Salas-Ambrosio, Pedro; Ready, Austin_D; Spokoyny, Alexander_M; Houk, Kendall_N; Maynard, Heather_D (May 2024, Bioconjugate Chemistry)
3. Photochemical Control of Network Topology in PEG Hydrogels

   https://doi.org/10.1002/adma.202409603  

   Kirkpatrick, Bruce E; Hach, Grace K; Nelson, Benjamin R; Skillin, Nathaniel P; Lee, Joshua S; Hibbard, Lea Pearl; Dhand, Abhishek P; Grotheer, Henry S; Miksch, Connor E; Salazar, Violeta; et al (November 2024, Advanced Materials)

   Abstract Hydrogels are often synthesized through photoinitiated step‐, chain‐, and mixed‐mode polymerizations, generating diverse network topologies and resultant material properties that depend on the underlying network connectivity. While many photocrosslinking reactions are available, few afford controllable connectivity of the hydrogel network. Herein, a versatile photochemical strategy is introduced for tuning the structure of poly(ethylene glycol) (PEG) hydrogels using macromolecular monomers functionalized with maleimide and styrene moieties. Hydrogels are prepared along a gradient of topologies by varying the ratio of step‐growth (maleimide dimerization) to chain‐growth (maleimide‐styrene alternating copolymerization) network‐forming reactions. The initial PEG content and final network physical properties (e.g., modulus, swelling, diffusivity) are tailored in an independent manner, highlighting configurable gel mechanics and reactivity. These photochemical reactions allow high‐fidelity photopatterning and 3D printing and are compatible with 2D and 3D cell culture. Ultimately, this photopolymer chemistry allows facile control over network connectivity to achieve adjustable material properties for broad applications. 

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4. Overcoming anti-PEG antibody mediated accelerated blood clearance of PEGylated liposomes by pre-infusion with high molecular weight free PEG

   https://doi.org/10.1016/j.jconrel.2019.08.017  

   McSweeney, Morgan D.; Price, Lauren S.L.; Wessler, Timothy; Ciociola, Elizabeth C.; Herity, Leah B.; Piscitelli, Joseph A.; DeWalle, Alexander C.; Harris, Taylor N.; Chan, Andy K.P.; Saw, Ran Sing; et al (October 2019, Journal of Controlled Release)
5. Streamlined Synthesis of PEG-Polypeptides Directly from Amino Acids

   https://doi.org/10.1021/acs.macromol.0c00470  

   Xue, Tianrui; Song, Ziyuan; Wang, Yizhuo; Zhu, Boya; Zhao, Zihao; Tan, Zhengzhong; Wang, Xuefang; Xia, Yingchun; Cheng, Jianjun (August 2020, Macromolecules)

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