Biomedicines (Oct 2023)

TCR-Engineered Lymphocytes Targeting NY-ESO-1: In Vitro Assessment of Cytotoxicity against Tumors

  • Alaa Alsalloum,
  • Saleh Alrhmoun,
  • Julia Shevchenko,
  • Marina Fisher,
  • Julia Philippova,
  • Roman Perik-Zavodskii,
  • Olga Perik-Zavodskaia,
  • Julia Lopatnikova,
  • Vasily Kurilin,
  • Marina Volynets,
  • Yasushi Akahori,
  • Hiroshi Shiku,
  • Alexander Silkov,
  • Sergey Sennikov

DOI
https://doi.org/10.3390/biomedicines11102805
Journal volume & issue
Vol. 11, no. 10
p. 2805

Abstract

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Adoptive T-cell therapies tailored for the treatment of solid tumors encounter intricate challenges, necessitating the meticulous selection of specific target antigens and the engineering of highly specific T-cell receptors (TCRs). This study delves into the cytotoxicity and functional characteristics of in vitro-cultured T-lymphocytes, equipped with a TCR designed to precisely target the cancer-testis antigen NY-ESO-1. Flow cytometry analysis unveiled a notable increase in the population of cells expressing activation markers upon encountering the NY-ESO-1-positive tumor cell line, SK-Mel-37. Employing the NanoString platform, immune transcriptome profiling revealed the upregulation of genes enriched in Gene Ontology Biological Processes associated with the IFN-γ signaling pathway, regulation of T-cell activation, and proliferation. Furthermore, the modified T cells exhibited robust cytotoxicity in an antigen-dependent manner, as confirmed by the LDH assay results. Multiplex immunoassays, including LEGENDplex™, additionally demonstrated the elevated production of cytotoxicity-associated cytokines driven by granzymes and soluble Fas ligand (sFasL). Our findings underscore the specific targeting potential of engineered TCR T cells against NY-ESO-1-positive tumors. Further comprehensive in vivo investigations are essential to thoroughly validate these results and effectively harness the intrinsic potential of genetically engineered T cells for combating cancer.

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