Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma

Josephine G M Strijker; Guillem Pascual-Pasto; Grant P Grothusen; Yannine J Kalmeijer; Elisavet Kalaitsidou; Chunlong Zhao; Brendan McIntyre; Stephanie Matlaga; Lindy L Visser; Marta Barisa; Courtney Himsworth; Rivani Shah; Henrike Muller; Linda G Schild; Peter G Hains; Qing Zhong; Roger R Reddel; Phillip J Robinson; Xavier Catena; María S Soengas; Thanasis Margaritis; Frank J Dekker; John Anderson; Jan J Molenaar; Kristopher R Bosse; Wei Wu; Judith Wienke

doi:10.1016/j.ejca.2025.115263

Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma

Josephine G M Strijker, Guillem Pascual-Pasto, Grant P Grothusen, Yannine J Kalmeijer, Elisavet Kalaitsidou, Chunlong Zhao, Brendan McIntyre, Stephanie Matlaga, Lindy L Visser, Marta Barisa, Courtney Himsworth, Rivani Shah, Henrike Muller, Linda G Schild, Peter G Hains, Qing Zhong, Roger R Reddel, Phillip J Robinson, Xavier Catena, María S SoengasThanasis Margaritis, Frank J Dekker, John Anderson, Jan J Molenaar, Kristopher R Bosse, Wei Wu, Judith Wienke^*

^*Corresponding author for this work

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

Abstract

INTRODUCTION: Chimeric antigen receptor (CAR) T-cell therapy is a promising and innovative cancer therapy. However, immunosuppressive tumor microenvironments (TME) limit T cell persistence and durable efficacy. Here, we aimed to identify and target immunosuppressive factors in the TME of neuroblastoma, a pediatric extracranial solid tumor, to improve CAR-T efficacy.

METHODS: Immunosuppressive factors were identified using a multi-omics approach, including single-cell RNA sequencing (scRNA-seq) of 24 neuroblastoma tumors, published bulk-RNA sequencing datasets, and mass-spectrometry of patient-derived tumoroid models. Candidate targets were validated with functional assays in vitro and in vivo. Protein degradation of the top immunosuppressive target by PROTAC technology was used to evaluate the effect on CAR T-cell activity.

RESULTS: ScRNA-seq revealed 13 immunosuppressive interactions in the TME of neuroblastoma, two effectors of which, Midkine (MDK) and Macrophage Migration Inhibitory Factor (MIF), were validated as candidate targets across multiple published datasets. Both factors were among the top 6 % of most abundantly secreted factors by patient-derived tumoroid models, substantiating their potential relevance in the TME. In vitro and in vivo functional assays confirmed MIF to be a potent inhibitor of CAR T-cell activation and killing capacity. To translate these findings into a potentially clinically applicable treatment, we explored MIF targeting by PROTAC technology, which significantly enhanced activation of CAR T-cells targeting GPC2 and B7-H3.

CONCLUSION: By defining the immunosuppressive effects of neuroblastoma's TME on CAR T-cell efficacy, revealing the pivotal role of MIF, we provide an analytic pipeline and therapeutic strategy for improving adoptive cell therapies for this pediatric malignancy and potentially other solid tumors.

Original language	English
Pages (from-to)	115263
Number of pages	12
Journal	European Journal of Cancer
Volume	218
DOIs	https://doi.org/10.1016/j.ejca.2025.115263
Publication status	Published - 11-Mar-2025

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Strijker, J. G. M., Pascual-Pasto, G., Grothusen, G. P., Kalmeijer, Y. J., Kalaitsidou, E., Zhao, C., McIntyre, B., Matlaga, S., Visser, L. L., Barisa, M., Himsworth, C., Shah, R., Muller, H., Schild, L. G., Hains, P. G., Zhong, Q., Reddel, R. R., Robinson, P. J., Catena, X., ... Wienke, J. (2025). Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma. European Journal of Cancer, 218, 115263. https://doi.org/10.1016/j.ejca.2025.115263

@article{61451dd6b0324f4580464e315f4055de,

title = "Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma",

abstract = "INTRODUCTION: Chimeric antigen receptor (CAR) T-cell therapy is a promising and innovative cancer therapy. However, immunosuppressive tumor microenvironments (TME) limit T cell persistence and durable efficacy. Here, we aimed to identify and target immunosuppressive factors in the TME of neuroblastoma, a pediatric extracranial solid tumor, to improve CAR-T efficacy.METHODS: Immunosuppressive factors were identified using a multi-omics approach, including single-cell RNA sequencing (scRNA-seq) of 24 neuroblastoma tumors, published bulk-RNA sequencing datasets, and mass-spectrometry of patient-derived tumoroid models. Candidate targets were validated with functional assays in vitro and in vivo. Protein degradation of the top immunosuppressive target by PROTAC technology was used to evaluate the effect on CAR T-cell activity.RESULTS: ScRNA-seq revealed 13 immunosuppressive interactions in the TME of neuroblastoma, two effectors of which, Midkine (MDK) and Macrophage Migration Inhibitory Factor (MIF), were validated as candidate targets across multiple published datasets. Both factors were among the top 6 % of most abundantly secreted factors by patient-derived tumoroid models, substantiating their potential relevance in the TME. In vitro and in vivo functional assays confirmed MIF to be a potent inhibitor of CAR T-cell activation and killing capacity. To translate these findings into a potentially clinically applicable treatment, we explored MIF targeting by PROTAC technology, which significantly enhanced activation of CAR T-cells targeting GPC2 and B7-H3.CONCLUSION: By defining the immunosuppressive effects of neuroblastoma's TME on CAR T-cell efficacy, revealing the pivotal role of MIF, we provide an analytic pipeline and therapeutic strategy for improving adoptive cell therapies for this pediatric malignancy and potentially other solid tumors.",

author = "Strijker, {Josephine G M} and Guillem Pascual-Pasto and Grothusen, {Grant P} and Kalmeijer, {Yannine J} and Elisavet Kalaitsidou and Chunlong Zhao and Brendan McIntyre and Stephanie Matlaga and Visser, {Lindy L} and Marta Barisa and Courtney Himsworth and Rivani Shah and Henrike Muller and Schild, {Linda G} and Hains, {Peter G} and Qing Zhong and Reddel, {Roger R} and Robinson, {Phillip J} and Xavier Catena and Soengas, {Mar{\'i}a S} and Thanasis Margaritis and Dekker, {Frank J} and John Anderson and Molenaar, {Jan J} and Bosse, {Kristopher R} and Wei Wu and Judith Wienke",

year = "2025",

month = mar,

day = "11",

doi = "10.1016/j.ejca.2025.115263",

language = "English",

volume = "218",

pages = "115263",

journal = "European Journal of Cancer",

issn = "0959-8049",

publisher = "ELSEVIER SCI LTD",

}

Strijker, JGM, Pascual-Pasto, G, Grothusen, GP, Kalmeijer, YJ, Kalaitsidou, E, Zhao, C, McIntyre, B, Matlaga, S, Visser, LL, Barisa, M, Himsworth, C, Shah, R, Muller, H, Schild, LG, Hains, PG, Zhong, Q, Reddel, RR, Robinson, PJ, Catena, X, Soengas, MS, Margaritis, T, Dekker, FJ, Anderson, J, Molenaar, JJ, Bosse, KR, Wu, W & Wienke, J 2025, 'Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma', European Journal of Cancer, vol. 218, pp. 115263. https://doi.org/10.1016/j.ejca.2025.115263

TY - JOUR

T1 - Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma

AU - Strijker, Josephine G M

AU - Pascual-Pasto, Guillem

AU - Grothusen, Grant P

AU - Kalmeijer, Yannine J

AU - Kalaitsidou, Elisavet

AU - Zhao, Chunlong

AU - McIntyre, Brendan

AU - Matlaga, Stephanie

AU - Visser, Lindy L

AU - Barisa, Marta

AU - Himsworth, Courtney

AU - Shah, Rivani

AU - Muller, Henrike

AU - Schild, Linda G

AU - Hains, Peter G

AU - Zhong, Qing

AU - Reddel, Roger R

AU - Robinson, Phillip J

AU - Catena, Xavier

AU - Soengas, María S

AU - Margaritis, Thanasis

AU - Dekker, Frank J

AU - Anderson, John

AU - Molenaar, Jan J

AU - Bosse, Kristopher R

AU - Wu, Wei

AU - Wienke, Judith

PY - 2025/3/11

Y1 - 2025/3/11

N2 - INTRODUCTION: Chimeric antigen receptor (CAR) T-cell therapy is a promising and innovative cancer therapy. However, immunosuppressive tumor microenvironments (TME) limit T cell persistence and durable efficacy. Here, we aimed to identify and target immunosuppressive factors in the TME of neuroblastoma, a pediatric extracranial solid tumor, to improve CAR-T efficacy.METHODS: Immunosuppressive factors were identified using a multi-omics approach, including single-cell RNA sequencing (scRNA-seq) of 24 neuroblastoma tumors, published bulk-RNA sequencing datasets, and mass-spectrometry of patient-derived tumoroid models. Candidate targets were validated with functional assays in vitro and in vivo. Protein degradation of the top immunosuppressive target by PROTAC technology was used to evaluate the effect on CAR T-cell activity.RESULTS: ScRNA-seq revealed 13 immunosuppressive interactions in the TME of neuroblastoma, two effectors of which, Midkine (MDK) and Macrophage Migration Inhibitory Factor (MIF), were validated as candidate targets across multiple published datasets. Both factors were among the top 6 % of most abundantly secreted factors by patient-derived tumoroid models, substantiating their potential relevance in the TME. In vitro and in vivo functional assays confirmed MIF to be a potent inhibitor of CAR T-cell activation and killing capacity. To translate these findings into a potentially clinically applicable treatment, we explored MIF targeting by PROTAC technology, which significantly enhanced activation of CAR T-cells targeting GPC2 and B7-H3.CONCLUSION: By defining the immunosuppressive effects of neuroblastoma's TME on CAR T-cell efficacy, revealing the pivotal role of MIF, we provide an analytic pipeline and therapeutic strategy for improving adoptive cell therapies for this pediatric malignancy and potentially other solid tumors.

AB - INTRODUCTION: Chimeric antigen receptor (CAR) T-cell therapy is a promising and innovative cancer therapy. However, immunosuppressive tumor microenvironments (TME) limit T cell persistence and durable efficacy. Here, we aimed to identify and target immunosuppressive factors in the TME of neuroblastoma, a pediatric extracranial solid tumor, to improve CAR-T efficacy.METHODS: Immunosuppressive factors were identified using a multi-omics approach, including single-cell RNA sequencing (scRNA-seq) of 24 neuroblastoma tumors, published bulk-RNA sequencing datasets, and mass-spectrometry of patient-derived tumoroid models. Candidate targets were validated with functional assays in vitro and in vivo. Protein degradation of the top immunosuppressive target by PROTAC technology was used to evaluate the effect on CAR T-cell activity.RESULTS: ScRNA-seq revealed 13 immunosuppressive interactions in the TME of neuroblastoma, two effectors of which, Midkine (MDK) and Macrophage Migration Inhibitory Factor (MIF), were validated as candidate targets across multiple published datasets. Both factors were among the top 6 % of most abundantly secreted factors by patient-derived tumoroid models, substantiating their potential relevance in the TME. In vitro and in vivo functional assays confirmed MIF to be a potent inhibitor of CAR T-cell activation and killing capacity. To translate these findings into a potentially clinically applicable treatment, we explored MIF targeting by PROTAC technology, which significantly enhanced activation of CAR T-cells targeting GPC2 and B7-H3.CONCLUSION: By defining the immunosuppressive effects of neuroblastoma's TME on CAR T-cell efficacy, revealing the pivotal role of MIF, we provide an analytic pipeline and therapeutic strategy for improving adoptive cell therapies for this pediatric malignancy and potentially other solid tumors.

U2 - 10.1016/j.ejca.2025.115263

DO - 10.1016/j.ejca.2025.115263

M3 - Article

C2 - 39908652

SN - 0959-8049

VL - 218

SP - 115263

JO - European Journal of Cancer

JF - European Journal of Cancer

ER -

Blocking MIF secretion enhances CAR T-cell efficacy against neuroblastoma

Abstract

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