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  Computationally-guided activity enhancement of de novo designed granulopoietic proteins

Ullrich, T., ElGamacy, M., Skokowa, J., & Lupas, A. (2022). Computationally-guided activity enhancement of de novo designed granulopoietic proteins. In Advances in Protein Folding, Evolution and Design (APFED 2022) (pp. 122).

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 Creators:
Ullrich, T1, Author           
ElGamacy, M1, Author           
Skokowa, J, Author
Lupas, A1, Author           
Affiliations:
1Department Protein Evolution, Max Planck Institute for Biology Tübingen, Max Planck Society, ou_3371683              

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 Abstract: De novo protein design has evolved into a powerful tool capable of providing a new generation of
potential therapeutics. We have recently designed a novel protein (Boskar4) to act as a granulocyte-
colony stimulating factor receptor (G-CSFR) agonist. Unlike the native receptor ligand (G-CSF), Boskar4
is small, highly stable, and can be produced with high yields in Escherichia coli. While Boskar4 showed
nanomolar activity in cell-based assays and in differentiating neutrophils ex vivo, and in animal models,
it was still less active than recombinant human G-CSF (rhG-CSF). This could be in part attributed to the
lower affinity of Boskar4 to the G-CSFR compared to the native ligand. We therefore developed a
pipeline, with Boskar4 as an initial candidate, that is able to quickly and efficiently affinity-maturate de
novo designed proteins. In essence, a bacterial display is used in combination with computationally-
designed libraries, utilizing a new design software Damietta. A set of 19 better binding monomeric
Boskar4 variants were identified with up to 100-fold higher affinity. Nine of them were further
investigated as tandem fusions in a cell-based assay, from which the most active variant nearly reached
the activity of rhG-CSF itself. Additionally, high affinity variants of Boskar4 monomers can be used as
competitive antagonists as well as the bases for new protein design applications like Novokines; novel-function cytokines.

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 Dates: 2022-04
 Publication Status: Published online
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Title: Advances in Protein Folding, Evolution and Design (APFED 2022)
Place of Event: Bayreuth, Germany
Start-/End Date: 2022-04-06 - 2022-04-08

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Title: Advances in Protein Folding, Evolution and Design (APFED 2022)
Source Genre: Proceedings
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Pages: - Volume / Issue: - Sequence Number: - Start / End Page: 122 Identifier: -