AI Article Synopsis
- PEGylation enhances the solubility and pharmacokinetics of proteins, making them more effective for therapeutic use.
- Understanding the structural ensemble of PEGylated proteins is essential to grasp their molecular behaviors, but studying their structure is complicated due to their size and flexibility.
- HullRad, a tool that uses coarse-grained simulations, can predict critical properties like sedimentation coefficients and hydrodynamic behavior by accounting for the complete hydration of these larger molecules.
Article Abstract
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 addition, 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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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11365107 | PMC |
| http://dx.doi.org/10.1016/j.bpj.2024.05.019 | DOI Listing |
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