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Hair loss (alopecia) is a common disorder caused by an interruption in the body’s cycle of hair production. This pathology negatively affects the psychoemotional state of patients and significantly reduces their quality of life. The currently available medical treatments (including minoxidil therapy) are effective in arresting the progression of the disease; however, they allow only partial regrowth of hair at best. A significant clinical result occurs only with regular drug use. There is still great interest in finding new drugs for the treatment of alopecia. In this study, we aimed to examine the effect of an aqueous dispersion of unmodified fullerene C60 (ADF) on hair growth. ADF, produced by a unique technology, is biocompatible and non-toxic. Nu/nu mice were subcutaneously injected (2 μg/animal) every two days for a period of 11 days with ADF and, for control purposes, with phosphate-buffered saline (PBS). It was shown that ADF stimulated hair growth. Histological analysis of the nu/nu mice skin areas showed that animals treated with ADF had significantly more (about twice as many) hair follicles in the anagen phase compared to mice treated with PBS. The effect on hair growth persisted even after discontinuation of ADF administration. Analysis of gene expression demonstrated that ADF affected the Wnt-signaling pathway, increased the expression of the Wnt10b (wingless-type Mouse Mammary Tumor Virus integration site family, member 10B) factor, angiogenetic factors, and downregulated tumor necrosis factor-alpha levels. We propose that the mechanism of ADF action is likely related to its ability to attract macrophages to the hair follicle microenvironment and promote their polarization to the M2 phenotype. In addition, using molecular modeling, we tried to substantiate our hypothesis about the interaction of ADF with the adenosine A2A receptor, which may cause a decrease in tumor necrosis factor-alpha production. Thus, ADF may become a promising drug for the development of new approaches to the treatment of alopecia associated with immune disorders.

Natural polyphenols are promising compounds for the pharmacological control of oxidative stress in various diseases. However, low bioavailability and rapid metabolism of polyphenols in a form of glycosides or aglycones have stimulated the search for the vehicles that would provide their efficient delivery to the systemic circulation. Conjugation of polyphenols with cationic amphiphilic peptides yields compounds with a strong antioxidant activity and ability to pass through biological barriers. Due to a broad range of biological activities characteristic of polyphenols and peptides, their conjugates can be used in the antioxidant therapy, including the treatment of viral, oncological, and neurodegenerative diseases. In this work, we synthesized linear and dendrimeric cationic amphiphilic peptides that were then conjugated with gallic acid (GA). GA is a non-toxic natural phenolic acid and an important functional element of many flavonoids with a high antioxidant activity. The obtained GA-peptide conjugates showed the antioxidant (antiradical) activity that exceeded 2-3 times the antioxidant activity of ascorbic acid. GA attachment had no effect on the toxicity and hemolytic activity of the peptides. GA-modified peptides stimulated the transmembrane transfer of the pGL3 plasmid encoding luciferase reporter gene, although GA attachment at the N-terminus of peptides reduced their transfection activity. Several synthesized conjugates demonstrated the antibacterial activity in the model of Escherichia coli Dh5α growth inhibition.