Molecules (Apr 2024)

An Approach for Engineering Peptides for Competitive Inhibition of the SARS-COV-2 Spike Protein

  • Ana Paula de Abreu,
  • Frederico Chaves Carvalho,
  • Diego Mariano,
  • Luana Luiza Bastos,
  • Juliana Rodrigues Pereira Silva,
  • Leandro Morais de Oliveira,
  • Raquel C. de Melo-Minardi,
  • Adriano de Paula Sabino

DOI
https://doi.org/10.3390/molecules29071577
Journal volume & issue
Vol. 29, no. 7
p. 1577

Abstract

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SARS-CoV-2 is the virus responsible for a respiratory disease called COVID-19 that devastated global public health. Since 2020, there has been an intense effort by the scientific community to develop safe and effective prophylactic and therapeutic agents against this disease. In this context, peptides have emerged as an alternative for inhibiting the causative agent. However, designing peptides that bind efficiently is still an open challenge. Here, we show an algorithm for peptide engineering. Our strategy consists of starting with a peptide whose structure is similar to the interaction region of the human ACE2 protein with the SPIKE protein, which is important for SARS-COV-2 infection. Our methodology is based on a genetic algorithm performing systematic steps of random mutation, protein–peptide docking (using the PyRosetta library) and selecting the best-optimized peptides based on the contacts made at the peptide–protein interface. We performed three case studies to evaluate the tool parameters and compared our results with proposals presented in the literature. Additionally, we performed molecular dynamics (MD) simulations (three systems, 200 ns each) to probe whether our suggested peptides could interact with the spike protein. Our results suggest that our methodology could be a good strategy for designing peptides.

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