AI Article Synopsis
- Granulocyte-colony stimulating factor (GCSF) is a therapeutic protein effective for treating neutropenia, but its aggregation increases at pH levels above 5.0, and the exact mechanism behind this is still unclear.
- The study utilizes advanced simulation techniques, including metadynamics and coarse-grained (CG) simulations, to explore GCSF's pH-dependent aggregation and protein-protein interactions, comparing results with small-angle X-ray (SAXS) data.
- Key findings suggest that while pH affects the orientation of Trp residues and protein flexibility, it doesn't alter the helical structure of GCSF; furthermore, stability at lower pH may rely more on colloidal than conformational stability, primarily influenced
Article Abstract
Granulocyte-colony stimulating factor (GCSF) is a widely used therapeutic protein to treat neutropenia. GCSF has an increased propensity to aggregate if the pH is increased above 5.0. Although GCSF is very well experimentally characterized, the exact pH-dependent aggregation mechanism of GCSF is still under debate. This study aimed to model the complex pH-dependent aggregation behavior of GCSF using state-of-the-art simulation techniques. The conformational stability of GCSF was investigated by performing metadynamics simulations, while the protein-protein interactions were investigated using coarse-grained (CG) simulations of multiple GCSF monomers. The CG simulations were directly compared with small-angle X-ray (SAXS) data. The metadynamics simulations demonstrated that the orientations of Trp residues in GCSF are dependent on pH. The conformational change of Trp residues is due to the loss of Trp-His interactions at the physiological pH, which in turn may increase protein flexibility. The helical structure of GCSF was not affected by the pH conditions of the simulations. Our CG simulations indicate that at pH 4.0, the colloidal stability may be more important than the conformational stability of GCSF. The electrostatic potential surface and CG simulations suggested that the basic residues are mainly responsible for colloidal stability as deprotonation of these residues causes a reduction of the highly positively charged electrostatic barrier close to the aggregation-prone long loop regions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8956964 | PMC |
| http://dx.doi.org/10.1016/j.csbj.2022.03.012 | DOI Listing |
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