Design of novel granulopoietic proteins by topological rescaffolding

Birte Hernandez Alvarez, Julia Skokowa, Murray Coles, Perihan Mir, Masoud Nasri, Kateryna Maksymenko, Laura Weidmann, Katherine W Rogers, Karl Welte, Andrei N Lupas, Patrick Müller and Mohammad ElGamacy

PLOS Biology, 2020, vol. 18, issue 12, 1-26

Abstract: Computational protein design is rapidly becoming more powerful, and improving the accuracy of computational methods would greatly streamline protein engineering by eliminating the need for empirical optimization in the laboratory. In this work, we set out to design novel granulopoietic agents using a rescaffolding strategy with the goal of achieving simpler and more stable proteins. All of the 4 experimentally tested designs were folded, monomeric, and stable, while the 2 determined structures agreed with the design models within less than 2.5 Å. Despite the lack of significant topological or sequence similarity to their natural granulopoietic counterpart, 2 designs bound to the granulocyte colony-stimulating factor (G-CSF) receptor and exhibited potent, but delayed, in vitro proliferative activity in a G-CSF-dependent cell line. Interestingly, the designs also induced proliferation and differentiation of primary human hematopoietic stem cells into mature granulocytes, highlighting the utility of our approach to develop highly active therapeutic leads purely based on computational design.De novo designed cytokines that activate the G-CSF receptor show that the receptor-binding information can be encoded onto stable, miniaturised protein scaffolds that possess potent granulopoietic activity; such novel proteins provide for ideal candidates for protein-based therapeutics.

Date: 2020
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pbio00:3000919

DOI: 10.1371/journal.pbio.3000919

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