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TCR-engaging scaffolds selectively expand antigen-specific T-cells with a favorable phenotype for adoptive cell therapy.
Tvingsholm, Siri Amanda; Frej, Marcus Svensson; Rafa, Vibeke Mindahl; Hansen, Ulla Kring; Ormhøj, Maria; Tyron, Alexander; Jensen, Agnete W P; Kadivar, Mohammad; Bentzen, Amalie Kai; Munk, Kamilla K; Aasbjerg, Gitte N; Ternander, Jeppe S H; Heeke, Christina; Tamhane, Tripti; Schmess, Christian; Funt, Samuel A; Kjeldsen, Julie Westerlin; Kverneland, Anders Handrup; Met, Özcan; Draghi, Arianna; Jakobsen, Søren Nyboe; Donia, Marco; Marie Svane, Inge; Hadrup, Sine Reker.
Afiliação
  • Tvingsholm SA; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Frej MS; PokeAcell Aps, BioInnovation Institute, Copenhagen, Denmark.
  • Rafa VM; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Hansen UK; PokeAcell Aps, BioInnovation Institute, Copenhagen, Denmark.
  • Ormhøj M; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Tyron A; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Jensen AWP; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Kadivar M; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Bentzen AK; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Munk KK; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Aasbjerg GN; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Ternander JSH; PokeAcell Aps, BioInnovation Institute, Copenhagen, Denmark.
  • Heeke C; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Tamhane T; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Schmess C; NMI Natural and Medical Science Institute, University of Tübingen, Tubingen, Germany.
  • Funt SA; Deptartment of Medicine, Memorial Sloan Kettering Cancer Center, New York, New York, USA.
  • Kjeldsen JW; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Kverneland AH; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Met Ö; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Copenhagen, Denmark.
  • Draghi A; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Jakobsen SN; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark.
  • Donia M; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Marie Svane I; National Center for Cancer Immune Therapy (CCIT-DK), Department of Oncology, Herlev Hospital, Herlev, Denmark.
  • Hadrup SR; Department of Health Technology, Technical University of Denmark, Lyngby, Denmark sirha@dtu.dk.
J Immunother Cancer ; 11(8)2023 08.
Article em En | MEDLINE | ID: mdl-37586765
BACKGROUND: Adoptive cell therapy (ACT) has shown promising results for the treatment of cancer and viral infections. Successful ACT relies on ex vivo expansion of large numbers of desired T-cells with strong cytotoxic capacity and in vivo persistence, which constitutes the greatest challenge to current ACT strategies. Here, in this study, we present a novel technology for ex vivo expansion of antigen-specific T-cells; artificial antigen-presenting scaffolds (Ag-scaffolds) consisting of a dextran-polysaccharide backbone, decorated with combinations of peptide-Major Histocompatibility Complex (pMHC), cytokines and co-stimulatory molecules, enabling coordinated stimulation of antigen-specific T-cells. METHODS: The capacity of Ag-scaffolds to expand antigen-specific T-cells was explored in ex vivo cultures with peripheral blood mononuclear cells from healthy donors and patients with metastatic melanoma. The resulting T-cell products were assessed for phenotypic and functional characteristics. RESULTS: We identified an optimal Ag-scaffold for expansion of T-cells for ACT, carrying pMHC and interleukin-2 (IL-2) and IL-21, with which we efficiently expanded both virus-specific and tumor-specific CD8+ T cells from peripheral blood of healthy donors and patients, respectively. The resulting T-cell products were characterized by a high frequency of antigen-specific cells with high self-renewal capacity, low exhaustion, a multifunctional cytokine profile upon antigen-challenge and superior tumor killing capacity. This demonstrates that the coordinated stimuli provided by an optimized stoichiometry of TCR engaging (pMHC) and stimulatory (cytokine) moieties is essential to obtain desired T-cell characteristics. To generate an 'off-the-shelf' multitargeting Ag-scaffold product of relevance to patients with metastatic melanoma, we identified the 30 most frequently recognized shared HLA-A0201-restricted melanoma epitopes in a cohort of 87 patients. By combining these in an Ag-scaffold product, we were able to expand tumor-specific T-cells from 60-70% of patients with melanoma, yielding a multitargeted T-cell product with up to 25% specific and phenotypically and functionally improved T cells. CONCLUSIONS: Taken together, the Ag-scaffold represents a promising new technology for selective expansion of antigen-specific CD8+ T cells directly from blood, yielding a highly specific and functionally enhanced T-cell product for ACT.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Segunda Neoplasia Primária / Melanoma Tipo de estudo: Prognostic_studies Limite: Humans Idioma: En Ano de publicação: 2023 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Segunda Neoplasia Primária / Melanoma Tipo de estudo: Prognostic_studies Limite: Humans Idioma: En Ano de publicação: 2023 Tipo de documento: Article