Frontiers in Immunology (May 2022)

SM-COLSARSPROT: Highly Immunogenic Supramutational Synthetic Peptides Covering the World’s Population

  • Manuel A. Patarroyo,
  • Manuel E. Patarroyo,
  • Laura Pabón,
  • Martha P. Alba,
  • Adriana Bermudez,
  • María Teresa Rugeles,
  • Diana Díaz-Arevalo,
  • Wildeman Zapata-Builes,
  • María Isabel Zapata,
  • César Reyes,
  • Carlos F. Suarez,
  • William Agudelo,
  • Carolina López,
  • Jorge Aza-Conde,
  • Miguel Melo,
  • Luis Escamilla,
  • Jairo Oviedo,
  • Fanny Guzmán,
  • Yolanda Silva,
  • Martha Forero,
  • Lizdany Flórez-Álvarez,
  • Wbeimar Aguilar-Jimenez,
  • Armando Moreno-Vranich,
  • Jason Garry,
  • Catalina Avendaño

DOI
https://doi.org/10.3389/fimmu.2022.859905
Journal volume & issue
Vol. 13

Abstract

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Fifty ~20–amino acid (aa)–long peptides were selected from functionally relevant SARS-CoV-2 S, M, and E proteins for trial B-21 and another 53 common ones, plus some new ones derived from the virus’ main genetic variants for complementary trial C-21. Peptide selection was based on tremendous SARS-CoV-2 genetic variability for analysing them concerning vast human immunogenetic polymorphism for developing the first supramutational, Colombian SARS-protection (SM-COLSARSPROT), peptide mixture. Specific physicochemical rules were followed, i.e., aa predilection for polyproline type II left-handed (PPIIL) formation, replacing β-branched, aromatic aa, short-chain backbone H-bond-forming residues, π-π interactions (n→π* and π-CH), aa interaction with π systems, and molecular fragments able to interact with them, disrupting PPIIL propensity formation. All these modified structures had PPIIL formation propensity to enable target peptide interaction with human leukocyte antigen-DRβ1* (HLA-DRβ1*) molecules to mediate antigen presentation and induce an appropriate immune response. Such modified peptides were designed for human use; however, they induced high antibody titres against S, M, and E parental mutant peptides and neutralising antibodies when suitably modified and chemically synthesised for immunising 61 major histocompatibility complex class II (MHCII) DNA genotyped Aotus monkeys (matched with their corresponding HLA-DRβ1* molecules), predicted to cover 77.5% to 83.1% of the world’s population. Such chemically synthesised peptide mixture represents an extremely pure, stable, reliable, and cheap vaccine for COVID-19 pandemic control, providing a new approach for a logical, rational, and soundly established methodology for other vaccine development.

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