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. 2025 May 13;58(5):1236-1253.e8.
doi: 10.1016/j.immuni.2025.03.021. Epub 2025 Apr 24.

Regulatory T cell depletion promotes myeloid cell activation and glioblastoma response to anti-PD1 and tumor-targeting antibodies

Felipe Galvez-Cancino  1 Mariela Navarrete  2 Gordon Beattie  3 Simone Puccio  4 Enrique Conde-Gallastegi  2 Kane Foster  2 Yasmin Morris  2 Teerapon Sahwangarrom  5 Despoina Karagianni  2 Jiali Liu  2 Alvin J X Lee  2 Dimitrios A Garyfallos  2 Alexander P Simpson  2 Gerasimos-Theodoros Mastrokalos  2 Francesco Nannini  2 Cristobal Costoya  2 Varshaa Anantharam  2 Beatrice Claudia Cianciotti  6 Leanne Bradley  7 Claudia Garcia-Diaz  8 Melanie Clements  8 Aditya Shroff  9 Fatemeh Vahid Dastjerdi  10 Enrique Miranda Rota  10 Shahida Sheraz  5 Robert Bentham  11 Imran Uddin  12 Henning Walczak  13 Alvaro Lladser  14 James L Reading  15 Kerry A Chester  10 Martin A Pule  16 Paul M Brennan  17 Samuel Marguerat  18 Simona Parrinello  8 Karl S Peggs  2 Nicholas McGranahan  11 Enrico Lugli  6 Kevin Litchfield  19 Steven M Pollard  7 Sergio A Quezada  20
Affiliations
Free article

Regulatory T cell depletion promotes myeloid cell activation and glioblastoma response to anti-PD1 and tumor-targeting antibodies

Felipe Galvez-Cancino et al. Immunity. .
Free article

Erratum in

  • Regulatory T cell depletion promotes myeloid cell activation and glioblastoma response to anti-PD1 and tumor-targeting antibodies.
    Galvez-Cancino F, Navarrete M, Beattie G, Puccio S, Conde-Gallastegi E, Foster K, Morris Y, Sahwangarrom T, Karagianni D, Liu J, Lee AJX, Garyfallos DA, Simpson AP, Mastrokalos GT, Nannini F, Costoya C, Anantharam V, Cianciotti BC, Bradley L, Garcia-Diaz C, Clements M, Shroff A, Dastjerdi FV, Rota EM, Sheraz S, Bentham R, Uddin I, Walczak H, Lladser A, Reading JL, Chester KA, Pule MA, Brennan PM, Marguerat S, Parrinello S, Peggs KS, McGranahan N, Lugli E, Litchfield K, Pollard SM, Quezada SA. Galvez-Cancino F, et al. Immunity. 2025 Jul 8;58(7):1862-1864. doi: 10.1016/j.immuni.2025.05.019. Epub 2025 May 29. Immunity. 2025. PMID: 40446804 No abstract available.

Abstract

Glioblastoma is invariably lethal and responds poorly to immune checkpoint blockade. Here, we examined the impact of regulatory T (Treg) cell depletion on glioblastoma progression and immunotherapy responsiveness. In human glioblastoma, elevated Treg cell signatures correlated with poorer survival outcomes, with these cells expressing high levels of CD25. In Nf1-/-Pten-/-EGFRvIII+ glioblastoma-bearing mice, a single dose of non-interleukin-2 (IL-2) blocking (NIB) anti-CD25 (anti-CD25NIB) antibody depleted Treg cells and promoted CD8+ T cell clonal expansion and partial tumor control, further enhanced by programmed cell death-1 (PD1)-blockade. Treg cell depletion induced interferon-γ (IFN-γ)-dependent tumor microenvironment remodeling, increasing Fcγ receptor (FcγR) expression on intratumoral myeloid cells and enhancing phagocytosis. Combination of anti-CD25NIB with anti-EGFRvIII tumor-targeting antibodies resulted in complete tumor control. Anti-human CD25NIB treatment of glioblastoma patient-derived tumor fragments effectively depleted Treg cells and activated CD8+ T cells. These findings underscore the therapeutic relevance of Treg targeting in glioblastoma and unveil potent combination strategies for anti-CD25NIB based on innate cell activation.

Keywords: CD25; CD8(+) T cells; EGFRvIII; Fcγ receptors; IL-2; PDTF; Treg cells; glioblastoma; macrophages; patient-derived tumor fragments.

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Conflict of interest statement

Declaration of interests Two patent applications, WO/2018/167104 and US20190284287, with relevance to this work, have been filed by Cancer Research Technology Limited and Tusk Therapeutics, and we declare our relationship with this patent. S.A.Q. and K.S.P. are named inventors on this patent. S.A.Q. and K.S.P. receive royalties related to this patent.

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