β- and γ-amino acids at α-helical interfaces: Toward the formation of highly stable foldameric coiled coils

Elisabeth K. Nyakatura; Jérémie Mortier; Vanessa S. Radtke; Sebastian Wieczorek; Raheleh Rezaei Araghi; Carsten Baldauf; Gerhard Wolber; Beate Koksch

doi:10.1021/ml500361c

β- and γ-amino acids at α-helical interfaces: Toward the formation of highly stable foldameric coiled coils

Elisabeth K. Nyakatura, Jérémie Mortier, Vanessa S. Radtke, Sebastian Wieczorek, Raheleh Rezaei Araghi, Carsten Baldauf, Gerhard Wolber, Beate Koksch

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Since peptides are vital for cellular and pathogenic processes, much effort has been put into the design of unnatural oligomers that mimic natural peptide structures, also referred to as foldamers. However, to enable the specific application of foldamers, a thorough characterization of their interaction profiles in native protein environments is required. We report here the application of phage display for the identification of suitable helical environments for a sequence comprising an alternating set of β- and γ-amino acids. In vitro selected sequences show that an increase in the hydrophobic surface area at the helical interface as well as the incorporation of a polar H-bond donor functionality can significantly improve interhelical interactions involving backbone-extended amino acids. Thus, our data provide insight into the principles of the rational design of foldameric inhibitors for protein-protein interactions.

Original language	English (US)
Pages (from-to)	1300-1303
Number of pages	4
Journal	ACS Medicinal Chemistry Letters
Volume	5
Issue number	12
DOIs	https://doi.org/10.1021/ml500361c
State	Published - Dec 11 2014
Externally published	Yes

Keywords

Phage display
chimeric peptides
βγ amino acids

ASJC Scopus subject areas

Biochemistry
Drug Discovery
Organic Chemistry

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10.1021/ml500361c

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title = "β- and γ-amino acids at α-helical interfaces: Toward the formation of highly stable foldameric coiled coils",

abstract = "Since peptides are vital for cellular and pathogenic processes, much effort has been put into the design of unnatural oligomers that mimic natural peptide structures, also referred to as foldamers. However, to enable the specific application of foldamers, a thorough characterization of their interaction profiles in native protein environments is required. We report here the application of phage display for the identification of suitable helical environments for a sequence comprising an alternating set of β- and γ-amino acids. In vitro selected sequences show that an increase in the hydrophobic surface area at the helical interface as well as the incorporation of a polar H-bond donor functionality can significantly improve interhelical interactions involving backbone-extended amino acids. Thus, our data provide insight into the principles of the rational design of foldameric inhibitors for protein-protein interactions.",

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T2 - Toward the formation of highly stable foldameric coiled coils

AU - Nyakatura, Elisabeth K.

AU - Mortier, Jérémie

AU - Radtke, Vanessa S.

AU - Wieczorek, Sebastian

AU - Rezaei Araghi, Raheleh

AU - Baldauf, Carsten

AU - Wolber, Gerhard

AU - Koksch, Beate

PY - 2014/12/11

Y1 - 2014/12/11

N2 - Since peptides are vital for cellular and pathogenic processes, much effort has been put into the design of unnatural oligomers that mimic natural peptide structures, also referred to as foldamers. However, to enable the specific application of foldamers, a thorough characterization of their interaction profiles in native protein environments is required. We report here the application of phage display for the identification of suitable helical environments for a sequence comprising an alternating set of β- and γ-amino acids. In vitro selected sequences show that an increase in the hydrophobic surface area at the helical interface as well as the incorporation of a polar H-bond donor functionality can significantly improve interhelical interactions involving backbone-extended amino acids. Thus, our data provide insight into the principles of the rational design of foldameric inhibitors for protein-protein interactions.

AB - Since peptides are vital for cellular and pathogenic processes, much effort has been put into the design of unnatural oligomers that mimic natural peptide structures, also referred to as foldamers. However, to enable the specific application of foldamers, a thorough characterization of their interaction profiles in native protein environments is required. We report here the application of phage display for the identification of suitable helical environments for a sequence comprising an alternating set of β- and γ-amino acids. In vitro selected sequences show that an increase in the hydrophobic surface area at the helical interface as well as the incorporation of a polar H-bond donor functionality can significantly improve interhelical interactions involving backbone-extended amino acids. Thus, our data provide insight into the principles of the rational design of foldameric inhibitors for protein-protein interactions.

KW - Phage display

KW - chimeric peptides

KW - βγ amino acids

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β- and γ-amino acids at α-helical interfaces: Toward the formation of highly stable foldameric coiled coils

Abstract

Keywords

ASJC Scopus subject areas

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