Abstract

With the growing problem of the emergence of antibiotic-resistant bacteria, the search for alternative ways to combat bacterial infections is extremely urgent. While analyzing the effect of antimicrobial peptides (AMPs) on immunocompetent cells, their effect on all parts of the immune system, and on humoral and cellular immunity, is revealed. AMPs have direct effects on neutrophils, monocytes, dendritic cells, T-lymphocytes, and mast cells, participating in innate immunity. They act on B-lymphocytes indirectly, enhancing the induction of antigen-specific immunity, which ultimately leads to the activation of adaptive immunity. The adjuvant activity of AMPs in relation to bacterial and viral antigens was the reason for their inclusion in vaccines and made it possible to formulate the concept of a “defensin vaccine” as an innovative basis for constructing vaccines. The immunomodulatory function of AMPs involves their influence on cells in the nearest microenvironment, recruitment and activation of other cells, supporting the response to pathogenic microorganisms and completing the inflammatory process, thus exhibiting a systemic effect. For the successful use of AMPs in medical practice, it is necessary to study their immunomodulatory activity in detail, taking into account their pleiotropy. The degree of maturity of the immune system and microenvironment can contribute to the prevention of complications and increase the effectiveness of therapy, since AMPs can suppress inflammation in some circumstances, but aggravate the response and damage of organism in others. It should also be taken into account that the real functions of one or another AMP depend on the types of total regulatory effects on the target cell, and not only on properties of an individual peptide. A wide spectrum of biological activity, including direct effects on pathogens, inactivation of bacterial toxins and influence on immunocompetent cells, has attracted the attention of researchers, however, the cytostatic activity of AMPs against normal cells, as well as their allergenic properties and low stability to host proteases, are serious limitations for the medical use of AMPs. In this connection, the tasks of searching for compounds that selectively affect the target and development of an appropriate method of application become critically important. The scope of this review is to summarize the current concepts and newest advances in research of the immunomodulatory activity of natural and synthetic AMPs, and to examine the prospects and limitations of their medical use.

Highlights

  • Antimicrobial peptides (AMPs) are an ancient and widespread class of compounds widely-spread from prokaryotes to eukaryotes and aimed at host defense from pathogen penetration [1,2,3].AMPs contain from 5 to 100 amino acid residues, including basic and hydrophobic residues

  • Information about AMPs is presented in numerous databases describing the structural, functional, allergenic and toxicological properties of these peptide factors of innate immunity [256,257,258,259,260]

  • AMPs are present in all organisms, from unicellular to multicellular, and have a wide spectrum of action

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Summary

Introduction

Antimicrobial peptides (AMPs) are an ancient and widespread class of compounds widely-spread from prokaryotes to eukaryotes and aimed at host defense from pathogen penetration [1,2,3]. In 1963, Zeya and Spitznagel isolated AMPs with a significant proportion of arginine from granules of rabbit and guinea pig neutrophils [5,6,7] AMPs were found in neutrophils, and in natural killer cells, macrophages, T-lymphocytes, epithelial cells of the mucous membranes and skin [16,17,18], adrenal chromaffin cells [19] and testes [20] They possessed antibacterial [16,17,18], and antiprotozoal [21,22,23], antifungal [23,24] and antiviral activity [25,26], and were shown to be involved in neuro-endocrine regulation [19,20]. Amphibia Mammals (Bird) Arthropoda Viridiplantae(Plant) Insect Bacteria Ecdysozoa Hominidae(Human) Pisces(Fish) Virus Fungi

Antimicrobial Activity
Immunomodulatory Activity of AMPs
Adjuvant Activity of AMPs
The Effect of AMPs on the Cytokine and Chemokine Production
AMPs’ Action on the Complement System
Allergenic Activity of AMPs
Findings
Conclusions

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