Bioinspired Nitroalkylation for Selective Protein Modification and Peptide Stapling

Mahesh, Sriram; Adebomi, Victor; Muneeswaran, Zilma P.; Raj, Monika

doi:10.1002/anie.201908593

Cited by 16 publications

(11 citation statements)

References 49 publications

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“…Another Glu-Glu initialized peptide stapling was developed by Raj and co-workers, which took advantage of the rapid, stable, and chemo-selective protein bioconjugation between nitroalkanes and peptide aldehydes. 131 Although this study focused on the bioconjugation of various functional motifs, including NMR tags, fluorescent tags, affinity tags, and alkyne tags, a preliminary exploration of nitroalkane-triggered peptide stapling was conducted. The selectively exposed side chain carboxylic acids of Glu-Glu paired residues were amidated by aminoacetaldehyde dimethyl acetal on resin, which was followed by TFA cleavage to yield the linear peptide precursor containing two aldehyde groups.…”

Section: Lys-tyr Via Ugi-smiles Reactionmentioning

confidence: 99%

“…Additionally, this stapling technique based on the Henry reaction, which involved a nucleophilic attack of the α-carbon of nitroalkane to the electrophilic aldehyde on a peptide, was sterically hindered by α-carbon substitution and showed chemo-selectivity for the N-terminal exposed SVF peptide sequence. 131…”

Section: Lys-tyr Via Ugi-smiles Reactionmentioning

confidence: 99%

Section: Stapling Two Natural Amino Acidsmentioning

confidence: 99%

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Stapled Helical Peptides Bearing Different Anchoring Residues

et al. 2020

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A large proportion of protein–protein interactions (PPIs) occur between a short peptide and a globular protein domain; the peptides involved in surface interactions play important roles, and there is great promise for using peptide motifs to interfere with protein interactions. Peptide inhibitors show more promise in blocking large surface protein interactions compared to small molecule inhibitors. However, peptides have drawbacks including poor stability against circulating proteolytic enzymes and an intrinsic inability to penetrate cell membranes. Stapled helical peptides, by adopting a preformed, stable α-helical conformation, exhibit improved proteolytic stability and membrane permeability compared to linear bioactive peptides. In this review, we summarize the broad aspects of peptide stapling for chemistry, biophysics, and biological applications and specifically highlight the methodology by providing an inventory of different anchoring residues categorized into two natural amino acids, two nonnatural amino acids, or a combination of natural and nonnatural amino acids. Additional advantages of specific peptide stapling techniques, including but not limited to reversibility, bio-orthogonal reactivity, and photoisomerization, are also discussed individually. This review is expected to provide a broad reference for the rational design of druggable stapled peptides targeting therapeutic proteins, particularly those involved in PPIs, by considering the impact of anchoring residues, functional cross-linkers, physical staple length, staple components, and the staple motif on the biophysical properties of the peptides.

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Section: Lys-tyr Via Ugi-smiles Reactionmentioning

confidence: 99%

Section: Lys-tyr Via Ugi-smiles Reactionmentioning

confidence: 99%

Section: Stapling Two Natural Amino Acidsmentioning

confidence: 99%

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Stapled Helical Peptides Bearing Different Anchoring Residues

et al. 2020

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“…Such as N‐terminal cysteines leading to the formation of thiazolidines with aldehydes [13] . Periodate oxidation of N‐terminal serine and threonine residues [14] for oxime, [15] hydrazone, [16] Wittig, [17] Aldol [18] and Henry bioconjugation [19] . N‐terminal tryptophans can be modified via Pictet‐Spengler reactions [20] .…”

Section: Introductionmentioning

confidence: 99%

One‐Step Azolation Strategy for Site‐ and Chemo‐Selective Labeling of Proteins with Mass‐Sensitive Probes

Tang

Raj

2020

Angewandte Chemie

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The chemical modification of proteins in as iteselective manner leads to many advances in various scientific fields.T he major challenges with conventional N-terminal bioconjugation techniques are the lacko fu niversal sequence compatibility and poor mass-detection sensitivity of the resulting bioconjugates.T his approach efficiently analyzes proteolytic fragments and native proteins in ac omplex mixture. Multiple chemical steps are usually required for the siteselective synthesis of bioconjugates with enhanced massdetection sensitivity.W epresent asingle-step,versatile strategy for the selective modification of protein N-termini with mass boosters.T he chemical tag enhances the peptide detection by multiple orders thus leading to the unambiguous analysis of the resulting bioconjugates.W ed emonstrate that tagging proteolytic fragments with mass sensitivity probes in ac omplex mixture improves the detection of resulting bioconjugates.

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“…Amino acids and oligopeptides are inherently chiral, and despite examples of Pd-catalyzed diastereoselective function-alization of amino acids, [4] the majority of bioconjugation strategies that generate a new stereocenter do not normally proceed in a stereoselective manner. [5] Most bioconjugations are based on thiols and amines as nucleophilic partners, while the carboxylic acid moiety is underdeveloped.…”

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confidence: 99%

Stereoselective Oxidative Bioconjugation of Amino Acids and Oligopeptides to Aldehydes

et al. 2020

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The first stereoselective, near-equimolar, and metalfree oxidative bioconjugation of amino acids and oligopeptides to aldehydes is presented. Based on a newly developed organocatalytic oxidative concept, the C-terminal and sidechain carboxylic acid functionalities of amino acids and oligopeptides are shown to couple in a stereoselective manner to a-branched aldehydes catalyzed by a chiral primary amine and a quinone as oxidizing agent. The oxidative coupling generally proceeds in high yield. For aspartic acid, selective coupling of the side-chain, or the C-terminal carboxylic acid, is demonstrated depending on the protection strategy. The stereoselective, oxidative bioconjugation concept is extended to a series of oligopeptides where coupling to carboxylic acid functionalities is presented. Bioorthogonal linker molecules for further functionalization are obtained by merging the oxidative coupling strategy with the click concept. It is demonstrated that the configuration of the new stereocenter is determined exclusively by the organocatalyst.

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Bioinspired Nitroalkylation for Selective Protein Modification and Peptide Stapling

Cited by 16 publications

References 49 publications

Stapled Helical Peptides Bearing Different Anchoring Residues

Stapled Helical Peptides Bearing Different Anchoring Residues

One‐Step Azolation Strategy for Site‐ and Chemo‐Selective Labeling of Proteins with Mass‐Sensitive Probes

Stereoselective Oxidative Bioconjugation of Amino Acids and Oligopeptides to Aldehydes

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