Vaccines (Mar 2024)

Development of a Potency Assay for Nous-209, a Multivalent Neoantigens-Based Genetic Cancer Vaccine

  • Rosa Bartolomeo,
  • Fulvia Troise,
  • Simona Allocca,
  • Giulia Sdruscia,
  • Rosa Vitale,
  • Veronica Bignone,
  • Anna Maria Petrone,
  • Giuseppina Romano,
  • Anna Morena D’Alise,
  • Valentino Ruzza,
  • Irene Garzia,
  • Guido Leoni,
  • Rossella Merone,
  • Francesca Lanzaro,
  • Stefano Colloca,
  • Loredana Siani,
  • Elisa Scarselli,
  • Gabriella Cotugno

DOI
https://doi.org/10.3390/vaccines12030325
Journal volume & issue
Vol. 12, no. 3
p. 325

Abstract

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Quality control testing of vaccines, including potency assessment, is critical to ensure equivalence of clinical lots. We developed a potency assay to support the clinical advancement of Nous-209, a cancer vaccine based on heterologous prime/boost administration of two multivalent viral vector products: GAd-209 and MVA-209. These consist of a mix of four Adeno (Great Ape Adenovirus; GAd) and four Modified Vaccinia Ankara (MVA) vectors respectively, each containing a different transgene encoding a synthetic polypeptide composed of antigenic peptide fragments joined one after the other. The potency assay employs quantitative Reverse Transcription PCR (RT-Q-PCR) to quantitatively measure the transcripts from the four transgenes encoded by each product in in vitro infected cells, enabling simultaneous detection. Results showcase the assay’s robustness and biological relevance, as it effectively detects potency loss in one component of the mixture comparably to in vivo immunogenicity testing. This report details the assay’s setup and validation, offering valuable insights for the clinical development of similar genetic vaccines, particularly those encoding synthetic polypeptides.

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