Bottlebrush polymers with flexible enantiomeric side chains display differential biological properties

Autor: Nguyen, Hung V.-T., Jiang, Yivan, Mohapatra, Somesh, Wang, Wencong, Barnes, Jonathan C., Oldenhuis, Nathan J., Chen, Kathleen K., Axelrod, Simon, Huang, Zhihao, Chen, Qixian, Golder, Matthew R., Young, Katherine, Suvlu, Dylan, Shen, Yizhi, Willard, Adam P., Hore, Michael J. A., Gómez-Bombarelli, Rafael, Johnson, Jeremiah A.
Zdroj: Nature Chemistry; 20240101, Issue: Preprints p1-9, 9p
Abstrakt: Chirality and molecular conformation are central components of life: biological systems rely on stereospecific interactions between discrete (macro)molecular conformers, and the impacts of stereochemistry and rigidity on the properties of small molecules and biomacromolecules have been intensively studied. Nevertheless, how these features affect the properties of synthetic macromolecules has received comparably little attention. Here we leverage iterative exponential growth and ring-opening metathesis polymerization to produce water-soluble, chiral bottlebrush polymers (CBPs) from two enantiomeric pairs of macromonomers of differing rigidity. Remarkably, CBPs with conformationally flexible, mirror image side chains show several-fold differences in cytotoxicity, cell uptake, blood pharmacokinetics and liver clearance; CBPs with comparably rigid, mirror image side chains show no differences. These observations are rationalized with a simple model that correlates greater conformational freedom with enhanced chiral recognition. Altogether, this work provides routes to the synthesis of chiral nanostructured polymers and suggests key roles for stereochemistry and conformational rigidity in the design of future biomaterials.
Databáze: Supplemental Index