Challenges and Opportunities of Functionalized Cucurbiturils for Biomedical Applications

Yin, Hang; Cheng, Qian; Bardelang, David; Wang, Ruibing

doi:10.1021/jacsau.3c00273

Cited by 34 publications

(19 citation statements)

References 163 publications

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“…Photodynamic antibacterial agents have attracted considerable attention due to their efficient tissue penetrability, accuracy, noninvasiveness, and controllable features. For instance, CB[ n ] macrocycles (especially CB[5] to CB[8]) have received increasing attention in various fields due to their stability, water solubility, host–guest complexation, and stimuli-responsiveness, especially in biological applications . We, together with Lee, Wang, and others, constructed antibacterial hybrid nanoparticles (HAMV-NPs) via ternary host–guest complexation between CB[8], methyl viologen nanoparticles (MV-NPs), and hyaluronic acid (HA) .…”

Section: Antibacterial Mechanisms and Design Strategiesmentioning

confidence: 99%

Macrocycle-Based Antibacterial Materials

Wang,

Ma,

et al. 2024

Chem. Mater.

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Bacterial infection, the cause of many diseases, has become one of the most severe global public health threats. The emergence of antimicrobial resistance poses a significant challenge in treating bacterial infections. Recently, synthetic macrocycles with various well-defined cavities and excellent dynamic, reversible, and directional noncovalent interactions can not only form complexation with biomarkers or drugs via host−guest recognition but also enable controlled drug delivery in response to many external stimuli, such as pH, thermal, redox, competitive binding, and light irradiation. Therefore, macrocycle-based functional materials have received increasing attention as promising candidates for precise ondemand bacteria inhibition. This Perspective provides an overview of the recent progress in the design and synthesis of macrocyclebased materials with antibacterial properties. The antibacterial mechanisms and various applications are also discussed in detail. Finally, the existing challenges and future opportunities in this emerging research field are put forward with the hope of promoting the further development of macrocycle-based antibacterial materials toward superior biomedical applications.

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Section: Antibacterial Mechanisms and Design Strategiesmentioning

confidence: 99%

Macrocycle-Based Antibacterial Materials

Wang,

Ma,

et al. 2024

Chem. Mater.

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“…130 Nowadays CB[ n ]s have taken over the prominent spot of highly promising macrocyclic candidates for biological applications and drug delivery. 98,122,125,131–151 Moreover, CB[ n ] hosts have shown potential as supramolecular antidotes, neutralizing the effects of a poison though the encapsulation of a small toxic molecule. 147,152,153 The so-called chemical reasons for these new trends are the observations that CDs, when compared to CB[ n ]s, show generally lower selectivity and weaker binding affinities 52 ( K a are usually lower than 10 5 M −1 ).…”

Section: Cucurbit[n]urils In Drug Deliverymentioning

confidence: 99%

Overcoming barriers with non-covalent interactions: supramolecular recognition of adamantyl cucurbit[n]uril assemblies for medical applications

Alešković,

Šekutor

2024

RSC Med. Chem.

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“…Further mouse experiments showed that combining insulin with CB[7]–PEG and then administering it to mice can lower blood sugar for a longer period, thereby proving that this strategy can effectively improve the half-life and action time of insulin in vivo . It is noteworthy that, while supramolecular PEGylation eliminates the need for complex chemical modifications on proteins, the synthesis of modified CB[7] poses challenges. , Cucurbiturils are known for their chemical inertness; hence, harsh reaction conditions are often necessary for the direct functionalization of CB[ n ]. However, the isolated yields in such reactions typically struggle to surpass 30% …”

Section: Site-selective Modification Of Peptides/proteins By Macrocyclesmentioning

confidence: 99%

Recent Progress in Site-Selective Modification of Peptides and Proteins Using Macrocycles

Wang,

Bai,

et al. 2024

Bioconjugate Chem.

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Peptides and proteins undergo crucial modifications to alter their physicochemical properties to expand their applications in diverse fields. Various techniques, such as unnatural amino acid incorporation, enzyme catalysis, and chemoselective methods, have been employed for site-selective peptide and protein modification. While traditional methods remain valuable, advancement in host–guest chemistry introduces innovative and promising approaches for the selective modification of peptides and proteins. Macrocycles exhibit robust binding affinities, particularly with natural amino acids, which facilitates their use in selectively binding to specific sequences. This distinctive property endows macrocycles with the potential for modification of target peptides and proteins. This review provides a comprehensive overview of strategies utilizing macrocycles for the selective modification of peptides and proteins. These strategies unlock new possibilities for constructing antibody–drug conjugates and stabilizing volatile medications.

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Challenges and Opportunities of Functionalized Cucurbiturils for Biomedical Applications

Cited by 34 publications

References 163 publications

Macrocycle-Based Antibacterial Materials

Macrocycle-Based Antibacterial Materials

Overcoming barriers with non-covalent interactions: supramolecular recognition of adamantyl cucurbit[n]uril assemblies for medical applications

Recent Progress in Site-Selective Modification of Peptides and Proteins Using Macrocycles

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