Pathology and Oncology Research (Apr 2023)

Characterization of the input material quality for the production of tisagenlecleucel by multiparameter flow cytometry and its relation to the clinical outcome

  • Martin Štach,
  • Martin Štach,
  • Robert Pytlík,
  • Robert Pytlík,
  • Kristýna Šmilauerová,
  • Kristýna Šmilauerová,
  • Jana Rychlá,
  • Martin Mucha,
  • Martin Mucha,
  • Jan Musil,
  • Abhishek Koladiya,
  • Matěj Nemec,
  • Martina Petráčková,
  • Iva Kaštánková,
  • Pavla Pecherková,
  • Lucie Šrámková,
  • Kamila Polgárová,
  • Kamila Polgárová,
  • Marek Trněný,
  • Marek Trněný,
  • Petr Lesný,
  • Jan Vydra,
  • Pavel Otáhal,
  • Pavel Otáhal

DOI
https://doi.org/10.3389/pore.2023.1610914
Journal volume & issue
Vol. 29

Abstract

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Tisagenlecleucel (tisa-cel) is a CD19-specific CAR-T cell product approved for the treatment of relapsed/refractory (r/r) DLBCL or B-ALL. We have followed a group of patients diagnosed with childhood B-ALL (n = 5), adult B-ALL (n = 2), and DLBCL (n = 25) who were treated with tisa-cel under non-clinical trial conditions. The goal was to determine how the intensive pretreatment of patients affects the produced CAR-T cells, their in vivo expansion, and the outcome of the therapy. Multiparametric flow cytometry was used to analyze the material used for manufacturing CAR-T cells (apheresis), the CAR-T cell product itself, and blood samples obtained at three timepoints after administration. We present the analysis of memory phenotype of CD4/CD8 CAR-T lymphocytes (CD45RA, CD62L, CD27, CD28) and the expression of inhibitory receptors (PD-1, TIGIT). In addition, we show its relation to the patients’ clinical characteristics, such as tumor burden and sensitivity to prior therapies. Patients who responded to therapy had a higher percentage of CD8+CD45RA+CD27+ T cells in the apheresis, although not in the produced CAR-Ts. Patients with primary refractory aggressive B-cell lymphomas had the poorest outcomes which was characterized by undetectable CAR-T cell expansion in vivo. No clear correlation of the outcome with the immunophenotypes of CAR-Ts was observed. Our results suggest that an important parameter predicting therapy efficacy is CAR-Ts’ level of expansion in vivo but not the immunophenotype. After CAR-T cells’ administration, measurements at several timepoints accurately detect their proliferation intensity in vivo. The outcome of CAR-T cell therapy largely depends on biological characteristics of the tumors rather than on the immunophenotype of produced CAR-Ts.

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