Stitched α-Helical Peptides via Bis Ring-Closing Metathesis

Hilinski, Gerard J.; Kim, Young Woo; Hong, Jooyeon; Kutchukian, Peter S.; Crenshaw, Charisse M.; Berkovitch, Shaunna S.; Chang, Andrew; Ham, Sihyun; Verdine, Gregory L.

doi:10.1021/ja505141j

Cited by 139 publications

(127 citation statements)

References 54 publications

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“…Recently, the next generation of hydrocarbon-stapled peptide systems was reported [62] in which two hydrocarbon staples are formed from a single amino acid precursor Àbis-pentenylglycine(2-(amino)-2-(pent-4-enyl)hept-6-enoic acid)À, as shown in Scheme 7, thereby creating a spiro-macrocyclic connectivity pattern of the amino acid side chains which is known to be exceptionally rigidifying the bicyclic peptide. This approach of introducing contiguous hydrocarbon staples along one side of the α-helix has been coined "stitching" which provides peptides superior helix induction, thermal stability, resistance against proteolysis, and cell permeability properties relative to peptide stapling.…”

Section: Stabilization Of α-Helices and β-Turns In Peptidesmentioning

confidence: 99%

“…RCM of 36 could lead to the formation of three bis-metathesized peptides, 37-39. Based on model studies it turned out (see Table 1 in [62]) that intraresidue RCM (reaction a; to form cyclononenylglycine) was disfavored as was the undesired reaction b, suggesting that compound 37 would be highly unlikely. Reaction c on the other hand would lead to an S i,i+4 R(8) staple (see Fig.…”

Section: Stabilization Of α-Helices and β-Turns In Peptidesmentioning

confidence: 99%

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Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Rijkers

2015

Topics in Heterocyclic Chemistry

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This review surveys developments in the field of ring-closing metathesis and cross-metathesis reactions applied to the synthesis of constrained amino acids, peptides, and peptidomimetics. Examples, in which metathesis is used as one of the synthetic tools to arrive at the desired peptide molecules as well as examples that describe in-depth optimized metathesis protocols, will be discussed. Currently, metathesis reactions are well-accepted synthetic tools within the field of peptide chemistry and provide peptides unprecedented properties like conformational, metabolic, and chemical stability and improved bioactivity.

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Section: Stabilization Of α-Helices and β-Turns In Peptidesmentioning

confidence: 99%

Section: Stabilization Of α-Helices and β-Turns In Peptidesmentioning

confidence: 99%

Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Rijkers

2015

Topics in Heterocyclic Chemistry

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“…These can take the form of multiple individual staples ( Figure 4D) or "stitched" stapled peptides incorporating two alkenyl chains on one α-carbon of the central amino acid (Figure 4E). [51][52][53][54] One staple constraint has been shown to be ineffective for longer peptides; however, two staple constraints can significantly increase the helicity. 54 Stitched α-helical peptides can be thought to be the next generation in terms of hydrocarbon stapling, creating spiro-macrocycles, which are known to be stabilizing.…”

Section: Staple Scanningmentioning

confidence: 99%

“…[51][52][53][54] One staple constraint has been shown to be ineffective for longer peptides; however, two staple constraints can significantly increase the helicity. 54 Stitched α-helical peptides can be thought to be the next generation in terms of hydrocarbon stapling, creating spiro-macrocycles, which are known to be stabilizing. Stitched peptides have been shown to give increased helicity, protease resistance, and cell permeability compared to the monostapled peptides.…”

Section: Staple Scanningmentioning

confidence: 99%

“…Stitched peptides have been shown to give increased helicity, protease resistance, and cell permeability compared to the monostapled peptides. 54 The size of the macrocycle formed upon RCM is important to achieve an increased degree of helicity in the constrained α-helical peptide. Different ring sizes are achieved depending on the length of the amino acid side chains used for the RCM.…”

Section: Staple Scanningmentioning

confidence: 99%

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Regulation of protein–protein interactions using stapled peptides

Jamieson¹,

Robertson²

2015

ROC

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Stapled Peptides as Potential Therapeutics

McDougall

Jamieson

2019

Encyclopedia of Life Sciences

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Stapled peptides are an important class of conformationally constrained, bioactive α‐helical peptides. They have been used extensively as chemical probes for the regulation of protein–protein interactions (PPIs), with one currently progressing through late‐stage clinical trials as a peptide drug candidate. Their ability to interact with shallow protein–protein interfaces, which have previously proven to be challenging to target with small molecules, has led to their rapid uptake by the chemical biology and drug discovery communities. Stapled peptides overcome some of the undesirable physicochemical properties that limit the use of peptides as therapeutics. They generally exhibit good binding affinity and specificity as they aim to accurately reproduce the α‐helix recognition motif from a PPI interface. They are protease resistant and in some instances have shown good cell permeability. The development of stapled peptides has thus resulted in a transformative shift by validating difficult PPIs as therapeutic targets and providing promising drug candidates. Key Concepts Stapled peptides are conformationally constrained α‐helical peptides. Stapling reduces the entropic penalty of folding to produce the bioactive conformation, thus giving an increase in binding affinity over an unfolded peptide. Through mimicking the interface these compounds have good binding affinity and specificity. Proteolytic stability is enhanced through the induction of secondary structure and the effective shielding of the peptide backbone from recognition by protease enzymes. Cell permeability can be enhanced by peptide stapling as the distribution of lipophilicity compared to the native peptide is altered. Key PPIs implicated in cancer, including p53‐MDM2/MDMX, Aurora‐A/TPX2 and the Bcl family, have been probed using stapled peptides.

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Stitched α-Helical Peptides via Bis Ring-Closing Metathesis

Cited by 139 publications

References 54 publications

Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Regulation of protein–protein interactions using stapled peptides

Stapled Peptides as Potential Therapeutics

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Stitched α-Helical Peptides via Bis Ring-Closing Metathesis

Cited by 139 publications

References 54 publications

Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Synthesis of Cyclic Peptides and Peptidomimetics by Metathesis Reactions

Regulation of protein&ndash;protein interactions using stapled peptides

Stapled Peptides as Potential Therapeutics

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Product

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Regulation of protein–protein interactions using stapled peptides