Olga Avrutina scite author profile

A good impression: A modular approach using a ruthenium(II) catalyst during peptide synthesis gives rigid and well‐defined triazole bridges as tailor‐made substitutes for natural disulfide bridges (see structures). The corresponding modification of the monocyclic sunflower trypsin inhibitor‐1 yielded an equally potent peptidomimetic containing a redox stable 1,5‐disubstituted 1,2,3‐triazole bridge.

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Engineered Cystine Knot Miniproteins as Potent Inhibitors of Human Mast Cell Tryptase β

Sommerhoff

Avrutina

Schmoldt

et al. 2010

Journal of Molecular Biology

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Trypsin inhibition by macrocyclic and open-chain variants of the squash inhibitor MCoTI-II

Avrutina

Schmoldt

Gabrijelcic-Geiger

et al. 2005

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MCoTI-I and MCoTI-II from the seeds of Momordica cochinchinensis are inhibitors of trypsin-like proteases and the only known members of the large family of squash inhibitors that are cyclic and contain an additional loop connecting the amino-and the carboxy-terminus. To investigate the contribution of macrocycle formation to biological activity, we synthesized a set of open-chain variants of MCoTI-II that lack the cyclization loop and contain various natural and non-natural amino acid substitutions in the reactive-site loop. Upon replacement of P1 lysine residue ࠻10 within the open-chain variant of MCoTI-II by the non-natural isosteric nucleo amino acid AlaG wb-(guanin-9-yl)-L-alaninex, a conformationally restricted arginine mimetic, residual inhibitory activity was detected, albeit reduced by four orders of magnitude. While the cyclic inhibitors MCoTI-I and MCoTI-II were found to be very potent trypsin inhibitors, with picomolar inhibition constants, the open-chain variants displayed an approximately 10-fold lower affinity. These data suggest that the formation of a circular backbone in the MCoTI squash inhibitors results in enhanced affinity and therefore is a determinant of biological activity.

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Combinatorial Optimization of Cystine-Knot Peptides towards High-Affinity Inhibitors of Human Matriptase-1

et al. 2013

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Cystine-knot miniproteins define a class of bioactive molecules with several thousand natural members. Their eponymous motif comprises a rigid structured core formed by six disulfide-connected cysteine residues, which accounts for its exceptional stability towards thermic or proteolytic degradation. Since they display a remarkable sequence tolerance within their disulfide-connected loops, these molecules are considered promising frameworks for peptide-based pharmaceuticals. Natural open-chain cystine-knot trypsin inhibitors of the MCoTI (Momordica cochinchinensis trypsin inhibitor) and SOTI (Spinacia oleracea trypsin inhibitor) families served as starting points for the generation of inhibitors of matriptase-1, a type II transmembrane serine protease with possible clinical relevance in cancer and arthritic therapy. Yeast surface-displayed libraries of miniproteins were used to select unique and potent matriptase-1 inhibitors. To this end, a knowledge-based library design was applied that makes use of detailed information on binding and folding behavior of cystine-knot peptides. Five inhibitor variants, four of the MCoTI family and one of the SOTI family, were identified, chemically synthesized and oxidatively folded towards the bioactive conformation. Enzyme assays revealed inhibition constants in the low nanomolar range for all candidates. One subnanomolar binder (Ki = 0.83 nM) with an inverted selectivity towards trypsin and matriptase-1 was identified.

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Braces for the Peptide Backbone: Insights into Structure–Activity Relationships of Protease Inhibitor Mimics with Locked Amide Conformations

et al. 2012

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Olga Avrutina

“Triazole Bridge”: Disulfide‐Bond Replacement by Ruthenium‐Catalyzed Formation of 1,5‐Disubstituted 1,2,3‐Triazoles

Engineered Cystine Knot Miniproteins as Potent Inhibitors of Human Mast Cell Tryptase β

Trypsin inhibition by macrocyclic and open-chain variants of the squash inhibitor MCoTI-II

Combinatorial Optimization of Cystine-Knot Peptides towards High-Affinity Inhibitors of Human Matriptase-1

Braces for the Peptide Backbone: Insights into Structure–Activity Relationships of Protease Inhibitor Mimics with Locked Amide Conformations

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