OncoImmunology (Dec 2024)

Enhancing T-cell recruitment in renal cell carcinoma with cytokine-armed adenoviruses

  • Michaela Feodoroff,
  • Firas Hamdan,
  • Gabriella Antignani,
  • Sara Feola,
  • Manlio Fusciello,
  • Salvatore Russo,
  • Jacopo Chiaro,
  • Katja Välimäki,
  • Teijo Pellinen,
  • Rui M. Branca,
  • Janne Lehtiö,
  • Federica D´alessio,
  • Paolo Bottega,
  • Virpi Stigzelius,
  • Janita Sandberg,
  • Jonna Clancy,
  • Jukka Partanen,
  • Minna Malmstedt,
  • Antti Rannikko,
  • Vilja Pietiäinen,
  • Mikaela Grönholm,
  • Vincenzo Cerullo

DOI
https://doi.org/10.1080/2162402X.2024.2407532
Journal volume & issue
Vol. 13, no. 1

Abstract

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Immunotherapy has emerged as a promising approach for cancer treatment, with oncolytic adenoviruses showing power as immunotherapeutic agents. In this study, we investigated the immunotherapeutic potential of an adenovirus construct expressing CXCL9, CXCL10, or IL-15 in clear cell renal cell carcinoma (ccRCC) tumor models. Our results demonstrated robust cytokine secretion upon viral treatment, suggesting effective transgene expression. Subsequent analysis using resistance-based transwell migration and microfluidic chip assays demonstrated increased T-cell migration in response to chemokine secretion by infected cells in both 2D and 3D cell models. Flow cytometry analysis revealed CXCR3 receptor expression across T-cell subsets, with the highest percentage found on CD8+ T-cells, underscoring their key role in immune cell migration. Alongside T-cells, we also detected NK-cells in the tumors of immunocompromised mice treated with cytokine-encoding adenoviruses. Furthermore, we identified potential immunogenic antigens that may enhance the efficacy and specificity of our armed oncolytic adenoviruses in ccRCC. Overall, our findings using ccRCC cell line, in vivo humanized mice, physiologically relevant PDCs in 2D and patient-derived organoids (PDOs) in 3D suggest that chemokine-armed adenoviruses hold promise for enhancing T-cell migration and improving immunotherapy outcomes in ccRCC. Our study contributes to the development of more effective ccRCC treatment strategies by elucidating immune cell infiltration and activation mechanisms within the tumor microenvironment (TME) and highlights the usefulness of PDOs for predicting clinical relevance and validating novel immunotherapeutic approaches. Overall, our research offers insights into the rational design and optimization of viral-based immunotherapies for ccRCC.

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