Harnessing a bis-electrophilic boronic acid lynchpin for azaborolo thiazolidine (ABT) grafting in cyclic peptides

Chemical modifications of native peptides have significantly advanced modern drug discovery in recent decades. On this front, the installation of multitasking molecular grafts onto macrocyclic peptides offers numerous opportunities in biomedical applications. Here, we showcase a new class of borono-...

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Veröffentlicht in:Chemical science (Cambridge) 2024-08, Vol.15 (34), p.13688-13698
Hauptverfasser: Das, Basab Kanti, Chowdhury, Arnab, Chatterjee, Saurav, Tripathi, Nitesh Mani, Pati, Bibekananda, Dutta, Soumit, Bandyopadhyay, Anupam
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Sprache:eng
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Zusammenfassung:Chemical modifications of native peptides have significantly advanced modern drug discovery in recent decades. On this front, the installation of multitasking molecular grafts onto macrocyclic peptides offers numerous opportunities in biomedical applications. Here, we showcase a new class of borono-cyclic peptides featuring an azaborolo thiazolidine (ABT) graft, which can be readily assembled utilizing a bis-electrophilic boronic acid lynchpin while harnessing the inherent reactivity difference (>10 3 M −1 s −1 ) between the N-terminal cysteine and backbone cysteine for rapid and highly regioselective macrocyclization (∼1 h) under physiological conditions. The ABT-crosslinked peptides are fairly stable in endogenous environments, but can provide the linear diazaborine peptides via treatment with α-nucleophiles. This efficient peptide crosslinking protocol was further extended for regioselective bicyclizations and engineering of α-helical structures. Finally, ABT-grafted peptides were exploited in biorthogonal conjugation, leading to highly effective intracellular delivery of an apoptotic peptide (KLA) in cancer cells. The mechanism of action by which ABT-grafted KLA peptide induces apoptosis was also explored. The report discloses the strategic deployment of lynchpins in crosslinking peptides and installing borono-heterocycles in peptide frameworks, which can be leveraged for multitasking prospects in biochemical applications.
ISSN:2041-6520
2041-6539
DOI:10.1039/d4sc04348k