Large Libraries of Structurally Diverse Macrocycles Suitable for Membrane Permeation

Nielsen, Alexander L.; Bognar, Zsolt; Mothukuri, Ganesh K.; Zarda, Anne; Schüttel, Mischa; Merz, Manuel L.; Ji, Xinjian; Will, Edward J.; Chinellato, Monica; Bartling, Christian R. O.; Strømgaard, Kristian; Cendron, Laura; Angelini, Alessandro; Heinis, Christian

doi:10.1002/anie.202400350

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202400350

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Large Libraries of Structurally Diverse Macrocycles Suitable for Membrane Permeation

Alexander L. Nielsen,

Zsolt Bognar,

Ganesh K. Mothukuri

et al.

Abstract: Macrocycles offer an attractive format for drug development due to their good binding properties and potential to cross cell membranes. To efficiently identify macrocyclic ligands for new targets, methods for the synthesis and screening of large combinatorial libraries of small cyclic peptides were developed, many of them using thiol groups for efficient peptide macrocyclization. However, a weakness of these libraries is that invariant thiol‐containing building blocks such as cysteine are used, resulting in a … Show more

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Cited by 3 publications

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Antimicrobial Macrocycles – Synthesis, Characterization, and Activity Comparison with Their Linear Polycationic Analogues

Kopiasz,

Dranka,

Tomaszewski

et al. 2024

Biomacromolecules

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One of the promising candidates for new antimicrobial agents is membrane-lytic compounds that kill microbes through cell membrane permeabilization, such as antimicrobial peptides (AMPs) and their synthetic mimics (SMAMPs). Although SMAMPs have been under investigation for nearly 30 years, a few challenges must be addressed before they can reach clinical use. In this work, a step-growth polymerization leading to already-known highly antimicrobial ionenes was redirected toward the formation of macrocyclic quaternary ammonium salts (MQAs) employing a high dilution principle. Antimicrobial assays and cytotoxicity studies revealed the high antimicrobial activity of MQAs and better selectivity than their polymeric analogues. Therefore, MQAs seem to be a new class of promising antibacterial agents. Additionally, membrane-lytic experiments using large unilamellar liposomes (LUVs) and whole cells revealed significant differences between MQAs and ionenes in their ability to adsorb onto the surface of LUVs and microbes as well as their ability to permeate the lipid bilayer.

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Antimicrobial Macrocycles – Synthesis, Characterization, and Activity Comparison with Their Linear Polycationic Analogues

Kopiasz,

Dranka,

Tomaszewski

et al. 2024

Biomacromolecules

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Tackling Undruggable Targets with Designer Peptidomimetics and Synthetic Biologics

Swenson,

Mandava,

Thomas

et al. 2024

Chem. Rev.

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The development of potent, specific, and pharmacologically viable chemical probes and therapeutics is a central focus of chemical biology and therapeutic development. However, a significant portion of predicted disease-causal proteins have proven resistant to targeting by traditional small molecule and biologic modalities. Many of these so-called "undruggable" targets feature extended, dynamic protein−protein and protein−nucleic acid interfaces that are central to their roles in normal and diseased signaling pathways. Here, we discuss the development of synthetically stabilized peptide and protein mimetics as an everexpanding and powerful region of chemical space to tackle undruggable targets. These molecules aim to combine the synthetic tunability and pharmacologic properties typically associated with small molecules with the binding footprints, affinities and specificities of biologics. In this review, we discuss the historical and emerging platforms and approaches to design, screen, select and optimize synthetic "designer" peptidomimetics and synthetic biologics. We examine the inspiration and design of different classes of designer peptidomimetics: (i) macrocyclic peptides, (ii) side chain stabilized peptides, (iii) non-natural peptidomimetics, and (iv) synthetic proteomimetics, and notable examples of their application to challenging biomolecules. Finally, we summarize key learnings and remaining challenges for these molecules to become useful chemical probes and therapeutics for historically undruggable targets.

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Fluorescent Macrocycles with Customizable Backbone: Design, Synthesis, and Detection of Explosive Picric Acid

Mol K M,

Jayaprakash,

Porel

2024

Org. Lett.

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Synthesis of size and functional-group tunable dansyl-appended fluorescent macrocycles MC-n, MC-h, MC-p, MC-c, MC-mx, and MC-px using click reaction is reported. Macrocycles were extensively characterized by using various spectroscopic and theoretical techniques. Fluorescent macrocycles showed positive-solvatofluorism, high quantum yields, and strong interactions with nitroaromatic-explosives. Sensing in real watersample, soil and vapor phase revealed that MC-p exhibits selective detection of picric acid containing three nitro-groups when compared to other nitroaromatics and structurally similar aromatics. Paper-strip based sensor was developed for real-time detection.

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Large Libraries of Structurally Diverse Macrocycles Suitable for Membrane Permeation

Cited by 3 publications

References 33 publications

Antimicrobial Macrocycles – Synthesis, Characterization, and Activity Comparison with Their Linear Polycationic Analogues

Antimicrobial Macrocycles – Synthesis, Characterization, and Activity Comparison with Their Linear Polycationic Analogues

Tackling Undruggable Targets with Designer Peptidomimetics and Synthetic Biologics

Fluorescent Macrocycles with Customizable Backbone: Design, Synthesis, and Detection of Explosive Picric Acid

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