Pharmaceuticals (Feb 2024)

Production and Immunogenicity Assessment of LTp50: An <i>Escherichia coli</i>-Made Chimeric Antigen Targeting S1- and S2-Epitopes from the SARS-CoV-2/BA.5 Spike Protein

  • Alejandra Wong-Arce,
  • Omar Gonzalez-Ortega,
  • Andrea Romero-Maldonado,
  • Arleth Miranda-López,
  • Mariano García-Soto,
  • Susan Farfán-Castro,
  • Lourdes Betancourt-Mendiola,
  • Samaporn Teeravechyan,
  • Kanjana Srisutthisamphan,
  • Mauricio Comas-García,
  • Karla I. Solís Andrade,
  • Sergio Rosales-Mendoza

DOI
https://doi.org/10.3390/ph17030302
Journal volume & issue
Vol. 17, no. 3
p. 302

Abstract

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Subunit vaccines stand as a leading approach to expanding the current portfolio of vaccines to fight against COVID-19, seeking not only to lower costs but to achieve long-term immunity against variants of concern and have the main attributes that could overcome the limitations of the current vaccines. Herein a chimeric protein targeting S1 and S2 epitopes, called LTp50, was designed as a convenient approach to induce humoral responses against SARS-CoV-2. LTp50 was produced in recombinant Escherichia coli using a conventional pET vector, recovering the expected antigen in the insoluble fraction. LTp50 was purified by chromatography (purity > 90%). The solubilization and refolding stages helped to obtain a stable protein amenable for vaccine formulation. LTp50 was adsorbed onto alum, resulting in a stable formulation whose immunogenic properties were assessed in BALB/c mice. Significant humoral responses against the S protein (BA.5 variant) were detected in mice subjected to three subcutaneous doses (10 µg) of the LTp50/alum formulation. This study opens the path for the vaccine formulation optimization using additional adjuvants to advance in the development of a highly effective anti-COVID-19 vaccine directed against the antigenic regions of the S protein, which are less prone to mutations.

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