The formation of well-ordered nanostructures through self-assembly of diverse organic and inorganic building blocks has drawn much attention owing to their potential applications in biology and chemistry. Among all organic building blocks, peptides are one of the most promising platforms due to their biocompatibility, chemical diversity, and resemblance with proteins. Inspired from the protein assembly in biological systems, various self-assembled peptide structures have been constructed using several amino acids and sequences. This review focuses on this emerging area, the recent advances in peptide self-assembly, and formation of different nanostructures, such as tubular, fibers, vesicles, spherical, and rod coil structures. While different peptide nanostructures are discovered, potential applications will be explored in drug delivery, tissue engineering, wound healing, and surfactants.
Going round in circles: Amphipathic L‐cyclic peptides facilitate the cellular uptake of fluorescently labeled lamivudine and a phosphopeptide. A corresponding fluorescently labeled conjugate F‐[W5R4K] showed a highly efficient translocation in the nucleus of colon adenocarcinoma, breast carcinoma, and human ovarian adenocarcinoma (see picture).
Multidrug-resistant pathogens have
become a major public health
concern. There is a great need for the development of novel antibiotics
with alternative mechanisms of action for the treatment of life-threatening
bacterial infections. Antimicrobial peptides, a major class of antibacterial
agents, share amphiphilicity and cationic structural properties with
cell-penetrating peptides (CPPs). Herein, several amphiphilic cyclic
CPPs and their analogues were synthesized and exhibited potent antibacterial
activities against multidrug-resistant pathogens. Among all the peptides,
cyclic peptide [R4W4] (1) showed
the most potent antibacterial activity against methicillin-resistant Staphylococcus aureus [MRSA, exhibiting a minimal inhibitory
concentration (MIC) of 2.67 μg/mL]. Cyclic [R4W4] and the linear counterpart R4W4 exhibited
MIC values of 42.8 and 21.7 μg/mL, respectively, against Pseudomonas aeruginosa. In eukaryotic cells, peptide 1 exhibited the expected cell penetrating properties and showed
>84% cell viability at a concentration of 15 μM (20.5 μg/mL)
in three different human cell lines. Twenty-four hour time-kill studies
evaluating [R4W4] with 2 times the MIC in combination
with tetracycline demonstrated bactericidal activity at 4 and 8 times
the MIC of tetracycline against MRSA (MIC = 0.5 μg/mL) and 2–8
times the MIC against Escherichia coli (MIC = 2 μg/mL).
This study suggests that when amphiphilic cyclic CPPs are used in
combination with an antibiotic such as tetracycline, they provide
significant benefit against multidrug-resistant pathogens when compared
with the antibiotic alone.
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