α/β-Peptide Foldamers Targeting Intracellular Protein–Protein Interactions with Activity in Living Cells

Checco, James W.; Lee, Erinna F.; Evangelista, Marco; Sleebs, Nerida; Rogers, Kelly L.; Pettikiriarachchi, Anne; Kershaw, Nadia J.; Eddinger, Geoffrey A.; Belair, David G.; Wilson, Julia L.; Eller, Chelcie H.; Raines, Ronald T.; Murphy, William L.; Smith, Brian J.; Gellman, Samuel H.; Fairlie, W. Douglas

doi:10.1021/jacs.5b05896

Cited by 110 publications

(101 citation statements)

References 65 publications

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“…Amongst a multitude of foldamer classes where structural/ conformational determinants have been mapped,1, 2, 3, 4 β‐peptides and hybrid α/β‐peptides, in which β‐amino acids are dispersed along an α‐peptide backbone, can inhibit α‐helix‐mediated protein–protein interactions22, 23, 24, 25, 26, 27, 28, 29 and mimic the structure and the function of protein surfaces 30, 31. Nonetheless foldamers that more accurately mimic the topology and topography of the α‐helix might prove advantageous in comparison to β‐ and α/β‐peptides, which may not fully mimic the spatial presentation of α‐helix side chains.…”

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confidence: 99%

An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

et al. 2016

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A major current challenge in bioorganic chemistry is the identification of effective mimics of protein secondary structures that act as inhibitors of protein–protein interactions (PPIs). In this work, trans‐2‐aminocyclobutanecarboxylic acid (tACBC) was used as the key β‐amino acid component in the design of α/β/γ‐peptides to structurally mimic a native α‐helix. Suitably functionalized α/β/γ‐peptides assume an α‐helix‐mimicking 12,13‐helix conformation in solution, exhibit enhanced proteolytic stability in comparison to the wild‐type α‐peptide parent sequence from which they are derived, and act as selective inhibitors of the p53/hDM2 interaction.

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confidence: 99%

An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

et al. 2016

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“…Peptides 1-8 were subjected to ab initio geometry optimization by DFT using Gaussian09 at the B3LYP/6-311G(d,p) level of theory. Thel owest-energy structures of 1-4 and 5-8 were superimposed (Figure 3a,b) and the backbone of peptide 2 (as ar epresentative example) was overlaid with the crystal structure of p53 [16][17][18][19][20][21][22][23][24][25][26][27][28][29] (Figure 3c)u sing g 4 -amino acid C(a) atoms as the basis of the alignment. Thesuperimposition gave an excellent RMSD value of around 0.9 (Figure 3d,e), thus strongly suggesting that the a/b/g-peptides 1-8 effectively mimic an a-helix.…”

Section: Methodsmentioning

confidence: 99%

“…Thep roteolytic stability of a/b/g-peptides 1-8 was investigated using a-chymotrypsin (a-CT) as ar epresentative protease,s ince this enzyme selectively hydrolyses the amide bond on the C-terminal side of hydrophobic residues such as Leu, Tr p, and Phe,a ll of which are present in the a/b/gpeptide sequences.T he p53 [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31] peptide was also studied for comparison (see the Supporting Information). Using HPLC to assess the progress of peptide digestion, it transpired that all eight a/b/g-peptides displayed considerably greater resistance to a-CT than did the native p53 [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31] (!…”

Section: Methodsmentioning

confidence: 99%

“…Using HPLC to assess the progress of peptide digestion, it transpired that all eight a/b/g-peptides displayed considerably greater resistance to a-CT than did the native p53 [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31] (! 32-fold for 2, 4, 6, and 8 and !…”

Section: Methodsmentioning

confidence: 99%

“…[17][18][19][20][21] However,t here is still aneed to develop ligands that more effectively mimic the conformation and molecular recognition capabilities of the ahelix. Herein, we present the bottom-up design of hybrid a/b/ g-peptides that assume an a-helix-mimicking 12,13-helical conformation and function as effective inhibitors of the p53/ hDM2 interaction.Amongst am ultitude of foldamer classes where structural/ conformational determinants have been mapped, [1][2][3][4] bpeptides and hybrid a/b-peptides,inwhich b-amino acids are dispersed along an a-peptide backbone,c an inhibit a-helixmediated protein-protein interactions [22][23][24][25][26][27][28][29] and mimic the structure and the function of protein surfaces. [30,31] Nonetheless foldamers that more accurately mimic the topology and topography of the a-helix might prove advantageous in comparison to b-and a/b-peptides,which may not fully mimic the spatial presentation of a-helix side chains.S everal foldamer scaffolds have been hypothesized to have potential for the inhibition of a-helix-mediated PPIs, [32][33][34][35] but they have not yet been shown to do so experimentally.…”

mentioning

confidence: 99%

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An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

et al. 2016

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Amajor current challenge in bioorganic chemistry is the identification of effective mimics of protein secondary structures that act as inhibitors of protein-protein interactions (PPIs). In this work, trans-2-aminocyclobutanecarboxylic acid (tACBC) was used as the key b-amino acid component in the design of a/b/g-peptides to structurally mimic anative a-helix. Suitably functionalized a/b/g-peptides assume an a-helixmimicking 12,13-helix conformation in solution, exhibit enhanced proteolytic stability in comparison to the wild-type a-peptide parent sequence from which they are derived, and act as selective inhibitors of the p53/hDM2 interaction.Foldamers are unnatural oligomers that adopt well-defined secondary and tertiary conformations. [1][2][3][4] As bioinspired structures,s ome of them have been validated as useful reagents to modulate (therapeutically important) biological processes and systems, [4][5][6][7][8][9] and others as building blocks for use in synthetic biology [10][11][12][13][14] or the construction of functional materials. [15,16] Ap articularly fertile area is centred on the search for foldamers that mimic natural secondary structures (specifically a-helices) and thereby act as inhibitors of protein-protein interactions (PPIs). [17][18][19][20][21] However,t here is still aneed to develop ligands that more effectively mimic the conformation and molecular recognition capabilities of the ahelix. Herein, we present the bottom-up design of hybrid a/b/ g-peptides that assume an a-helix-mimicking 12,13-helical conformation and function as effective inhibitors of the p53/ hDM2 interaction.Amongst am ultitude of foldamer classes where structural/ conformational determinants have been mapped, [1][2][3][4] bpeptides and hybrid a/b-peptides,inwhich b-amino acids are dispersed along an a-peptide backbone,c an inhibit a-helixmediated protein-protein interactions [22][23][24][25][26][27][28][29] and mimic the structure and the function of protein surfaces. [30,31] Nonetheless foldamers that more accurately mimic the topology and topography of the a-helix might prove advantageous in comparison to b-and a/b-peptides,which may not fully mimic the spatial presentation of a-helix side chains.S everal foldamer scaffolds have been hypothesized to have potential for the inhibition of a-helix-mediated PPIs, [32][33][34][35] but they have not yet been shown to do so experimentally. b/g-Peptide sequences fall into this category:adipeptide of b-a nd gresidues forming a13-membered hydrogen-bonded ring (C = O(i)-NH(i + 3)) is analogous to atripeptide of a-amino acids forming the 13-membered hydrogen-bonded ring (C = O(i)-NH(i + 4)) of the native a-helix. The1 3-helix represents am ore accurate topographical mimic of the natural a(4 13 )-helix and represents an attractive template on which to elaborate inhibitors of protein-protein interactions.W hilst both the Gellman and Balaram groups have previously demonstrated that the introduction of b and g residues is tolerated within sequences of a-amino acids,which re...

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Cyclized Helical Peptides

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α/β-Peptide Foldamers Targeting Intracellular Protein–Protein Interactions with Activity in Living Cells

Cited by 110 publications

References 65 publications

An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

An α‐Helix‐Mimicking 12,13‐Helix: Designed α/β/γ‐Foldamers as Selective Inhibitors of Protein–Protein Interactions

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