γδ T cells are the prime antitumoral T cells in pediatric neuroblastoma

Suzanne M. Castenmiller; Anne L. Borst; Leyma Wardak; Jan J. Molenaar; Maria Papadopoulou; Ronald R. de Krijger; Alida F.W. van der Steeg; Max M. van Noesel; David Vermijlen; Rosa de Groot; Judith Wienke; Monika C. Wolkers

doi:10.26508/lsa.202503249

γδ T cells are the prime antitumoral T cells in pediatric neuroblastoma

Suzanne M. Castenmiller
, Anne L. Borst
, Leyma Wardak
, Jan J. Molenaar
, Maria Papadopoulou
, Ronald R. de Krijger
, Alida F.W. van der Steeg
, Max M. van Noesel
, David Vermijlen
, Rosa de Groot
, Judith Wienke
, Monika C. Wolkers^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

High-risk pediatric neuroblastoma patients have a dismal survival rate despite intensive treatment regimens. New treatment options are thus required. Even though HLA expression in neuroblastoma is low and immune cell infiltrates are limited, the presence of tumor-infiltrating lymphocytes (TILs) is indicative of better patient survival. Here, we show that most tumor lesions contain viable immune cell infiltrates after induction chemotherapy, with high percentages of CD3⁺ T cells. We therefore expanded the TILs and tested their antitumoral activity. With sufficient starting material, TIL expansion was as efficient as for adult solid tumors. However, whereas TIL products from adult tumors almost exclusively contained αβ T cells, in neuroblastoma-derived TIL products, γδ T cells expanded with similar efficacy as αβ T cells. Importantly, the antitumor responses in response to autologous tumor digest primarily originated from (Vδ1-and Vδ3-expressing) γδ T cells, and not from αβ T cells. In conclusion, this finding creates a window of opportunity for immunotherapy for neuroblastoma patients, with γδ T cells as potential prime responders.

Original language	English
Article number	e202503249
Journal	Life Science Alliance
Volume	8
Issue number	11
DOIs	https://doi.org/10.26508/lsa.202503249
Publication status	Published - Nov 2025

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Publisher Copyright:
© 2025 Castenmiller et al.

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Castenmiller, S. M., Borst, A. L., Wardak, L., Molenaar, J. J., Papadopoulou, M., de Krijger, R. R., van der Steeg, A. F. W., van Noesel, M. M., Vermijlen, D., de Groot, R., Wienke, J., & Wolkers, M. C. (2025). γδ T cells are the prime antitumoral T cells in pediatric neuroblastoma. Life Science Alliance, 8(11), Article e202503249. https://doi.org/10.26508/lsa.202503249

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title = "γδ T cells are the prime antitumoral T cells in pediatric neuroblastoma",

abstract = "High-risk pediatric neuroblastoma patients have a dismal survival rate despite intensive treatment regimens. New treatment options are thus required. Even though HLA expression in neuroblastoma is low and immune cell infiltrates are limited, the presence of tumor-infiltrating lymphocytes (TILs) is indicative of better patient survival. Here, we show that most tumor lesions contain viable immune cell infiltrates after induction chemotherapy, with high percentages of CD3+ T cells. We therefore expanded the TILs and tested their antitumoral activity. With sufficient starting material, TIL expansion was as efficient as for adult solid tumors. However, whereas TIL products from adult tumors almost exclusively contained αβ T cells, in neuroblastoma-derived TIL products, γδ T cells expanded with similar efficacy as αβ T cells. Importantly, the antitumor responses in response to autologous tumor digest primarily originated from (Vδ1-and Vδ3-expressing) γδ T cells, and not from αβ T cells. In conclusion, this finding creates a window of opportunity for immunotherapy for neuroblastoma patients, with γδ T cells as potential prime responders.",

author = "Castenmiller, \{Suzanne M.\} and Borst, \{Anne L.\} and Leyma Wardak and Molenaar, \{Jan J.\} and Maria Papadopoulou and \{de Krijger\}, \{Ronald R.\} and \{van der Steeg\}, \{Alida F.W.\} and \{van Noesel\}, \{Max M.\} and David Vermijlen and \{de Groot\}, Rosa and Judith Wienke and Wolkers, \{Monika C.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Castenmiller et al.",

year = "2025",

month = nov,

doi = "10.26508/lsa.202503249",

language = "English",

volume = "8",

journal = "Life Science Alliance",

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AU - Castenmiller, Suzanne M.

AU - Borst, Anne L.

AU - Wardak, Leyma

AU - Molenaar, Jan J.

AU - Papadopoulou, Maria

AU - de Krijger, Ronald R.

AU - van der Steeg, Alida F.W.

AU - van Noesel, Max M.

AU - Vermijlen, David

AU - de Groot, Rosa

AU - Wienke, Judith

AU - Wolkers, Monika C.

PY - 2025/11

Y1 - 2025/11

N2 - High-risk pediatric neuroblastoma patients have a dismal survival rate despite intensive treatment regimens. New treatment options are thus required. Even though HLA expression in neuroblastoma is low and immune cell infiltrates are limited, the presence of tumor-infiltrating lymphocytes (TILs) is indicative of better patient survival. Here, we show that most tumor lesions contain viable immune cell infiltrates after induction chemotherapy, with high percentages of CD3+ T cells. We therefore expanded the TILs and tested their antitumoral activity. With sufficient starting material, TIL expansion was as efficient as for adult solid tumors. However, whereas TIL products from adult tumors almost exclusively contained αβ T cells, in neuroblastoma-derived TIL products, γδ T cells expanded with similar efficacy as αβ T cells. Importantly, the antitumor responses in response to autologous tumor digest primarily originated from (Vδ1-and Vδ3-expressing) γδ T cells, and not from αβ T cells. In conclusion, this finding creates a window of opportunity for immunotherapy for neuroblastoma patients, with γδ T cells as potential prime responders.

AB - High-risk pediatric neuroblastoma patients have a dismal survival rate despite intensive treatment regimens. New treatment options are thus required. Even though HLA expression in neuroblastoma is low and immune cell infiltrates are limited, the presence of tumor-infiltrating lymphocytes (TILs) is indicative of better patient survival. Here, we show that most tumor lesions contain viable immune cell infiltrates after induction chemotherapy, with high percentages of CD3+ T cells. We therefore expanded the TILs and tested their antitumoral activity. With sufficient starting material, TIL expansion was as efficient as for adult solid tumors. However, whereas TIL products from adult tumors almost exclusively contained αβ T cells, in neuroblastoma-derived TIL products, γδ T cells expanded with similar efficacy as αβ T cells. Importantly, the antitumor responses in response to autologous tumor digest primarily originated from (Vδ1-and Vδ3-expressing) γδ T cells, and not from αβ T cells. In conclusion, this finding creates a window of opportunity for immunotherapy for neuroblastoma patients, with γδ T cells as potential prime responders.

UR - https://www.scopus.com/pages/publications/105015447498

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DO - 10.26508/lsa.202503249

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AN - SCOPUS:105015447498

SN - 2575-1077

VL - 8

JO - Life Science Alliance

JF - Life Science Alliance

IS - 11

M1 - e202503249

ER -

γδ T cells are the prime antitumoral T cells in pediatric neuroblastoma

Abstract

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