Frontiers in Microbiology (Oct 2023)

Antimicrobial activity, membrane interaction and structural features of short arginine-rich antimicrobial peptides

  • Bruna Agrillo,
  • Alessandra Porritiello,
  • Lorena Gratino,
  • Marco Balestrieri,
  • Yolande Therese Proroga,
  • Andrea Mancusi,
  • Loredana Cozzi,
  • Teresa Vicenza,
  • Principia Dardano,
  • Bruno Miranda,
  • Pablo V. Escribá,
  • Pablo V. Escribá,
  • Marta Gogliettino,
  • Gianna Palmieri,
  • Gianna Palmieri

DOI
https://doi.org/10.3389/fmicb.2023.1244325
Journal volume & issue
Vol. 14

Abstract

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Antimicrobial activity of many AMPs can be improved by lysine-to-arginine substitution due to a more favourable interaction of arginine guanidinium moiety with bacterial membranes. In a previous work, the structural and functional characterization of an amphipathic antimicrobial peptide named RiLK1, including lysine and arginine as the positively charged amino acids in its sequence, was reported. Specifically, RiLK1 retained its β-sheet structure under a wide range of environmental conditions (temperature, pH, and ionic strength), and exhibited bactericidal activity against Gram-positive and Gram-negative bacteria and fungal pathogens with no evidence of toxicity on mammalian cells. To further elucidate the influence of a lysine-to-arginine replacement on RiLK1 conformational properties, antimicrobial activity and peptide-liposome interaction, a new RiLK1-derivative, named RiLK3, in which the lysine is replaced with an arginine residue, was projected and characterised in comparison with its parental compound. The results evidenced that lysine-to-arginine mutation not only did not assure an improvement in the antimicrobial potency of RiLK1 in terms of bactericidal, virucidal and fungicidal activities, but rather it was completely abolished against the hepatitis A virus. Therefore, RiLK1 exhibited a wide range of antimicrobial activity like other cationic peptides, although the exact mechanisms of action are not completely understood. Moreover, tryptophan fluorescence measurements confirmed that RiLK3 bound to negatively charged lipid vesicles with an affinity lower than that of RiLK1, although no substantial differences from the structural and self-assembled point of view were evidenced. Therefore, our findings imply that antimicrobial efficacy and selectivity are affected by several complex and interrelated factors related to substitution of lysine with arginine, such as their relative proportion and position. In this context, this study could provide a better rationalisation for the optimization of antimicrobial peptide sequences, paving the way for the development of novel AMPs with broad applications.

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