Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma

Jourdin R.C. Rouaen; Antonietta Salerno; Tyler Shai-Hee; Jayne E. Murray; Giulia Castrogiovanni; Charlotte McHenry; Toni Rose Jue; Vu Pham; Jessica Lilian Bell; Ensieh Poursani; Emanuele Valli; Riccardo Cazzoli; Naomi Damstra; Delia J. Nelson; Kofi L.P. Stevens; Jonathan Chee; Iveta Slapetova; Maria Kasherman; Renee Whan; Francis Lin; Blake J. Cochran; Nicodemus Tedla; Feyza Colakoglu Veli; Aysen Yuksel; Chelsea Mayoh; Federica Saletta; Daniele Mercatelli; Tatyana Chtanova; Arutha Kulasinghe; Daniel Catchpoole; Giuseppe Cirillo; Maté Biro; Holger N. Lode; Fabio Luciani; Michelle Haber; Juliet C. Gray; Toby N. Trahair; Orazio Vittorio

doi:10.1038/s41467-024-54689-x

Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma

Jourdin R.C. Rouaen
, Antonietta Salerno
, Tyler Shai-Hee
, Jayne E. Murray
, Giulia Castrogiovanni
, Charlotte McHenry
, Toni Rose Jue
, Vu Pham
, Jessica Lilian Bell
, Ensieh Poursani
, Emanuele Valli
, Riccardo Cazzoli
, Naomi Damstra
, Delia J. Nelson
, Kofi L.P. Stevens
, Jonathan Chee
, Iveta Slapetova
, Maria Kasherman
, Renee Whan
, Francis Lin

Blake J. Cochran, Nicodemus Tedla, Feyza Colakoglu Veli, Aysen Yuksel, Chelsea Mayoh, Federica Saletta, Daniele Mercatelli, Tatyana Chtanova, Arutha Kulasinghe, Daniel Catchpoole, Giuseppe Cirillo, Maté Biro, Holger N. Lode, Fabio Luciani, Michelle Haber, Juliet C. Gray, Toby N. Trahair, Orazio Vittorio

University of New South Wales
UNSW Sydney
IRCCS Istituto Europeo di Oncologia - Milano
University of Western Australia
Curtin University
The Children's Hospital at Westmead
University of Bologna
Garvan Institute of Medical Research
University of Queensland
University of Calabria
University of Greifswald
University of Southampton
Sydney Children's Hospital

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

9 Citations (Scopus)

Abstract

Anti-disialoganglioside (GD2) antibody therapy has provided clinical benefit to patients with neuroblastoma however efficacy is likely impaired by the immunosuppressive tumor microenvironment. We have previously defined a link between intratumoral copper levels and immune evasion. Here, we report that adjuvant copper chelation potentiates anti-GD2 antibody therapy to confer durable tumor control in immunocompetent models of neuroblastoma. Mechanistic studies reveal copper chelation creates an immune-primed tumor microenvironment through enhanced infiltration and activity of Fc-receptor-bearing cells, specifically neutrophils which are emerging as key effectors of antibody therapy. Moreover, we report copper sequestration by neuroblastoma attenuates neutrophil function which can be successfully reversed using copper chelation to increase pro-inflammatory effector functions. Importantly, we repurpose the clinically approved copper chelating agent Cuprior as a non-toxic, efficacious immunomodulatory strategy. Collectively, our findings provide evidence for the clinical testing of Cuprior as an adjuvant to enhance the activity of anti-GD2 antibody therapy and improve outcomes for patients with neuroblastoma.

Original language	English
Article number	10462
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-54689-x
Publication status	Published - Dec 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Author(s) 2024.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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10.1038/s41467-024-54689-x

Cite this

Rouaen, J. R. C., Salerno, A., Shai-Hee, T., Murray, J. E., Castrogiovanni, G., McHenry, C., Jue, T. R., Pham, V., Bell, J. L., Poursani, E., Valli, E., Cazzoli, R., Damstra, N., Nelson, D. J., Stevens, K. L. P., Chee, J., Slapetova, I., Kasherman, M., Whan, R., ... Vittorio, O. (2024). Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma. Nature Communications, 15(1), Article 10462. https://doi.org/10.1038/s41467-024-54689-x

@article{536509765bfd4abc8805765ad07d098b,

title = "Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma",

abstract = "Anti-disialoganglioside (GD2) antibody therapy has provided clinical benefit to patients with neuroblastoma however efficacy is likely impaired by the immunosuppressive tumor microenvironment. We have previously defined a link between intratumoral copper levels and immune evasion. Here, we report that adjuvant copper chelation potentiates anti-GD2 antibody therapy to confer durable tumor control in immunocompetent models of neuroblastoma. Mechanistic studies reveal copper chelation creates an immune-primed tumor microenvironment through enhanced infiltration and activity of Fc-receptor-bearing cells, specifically neutrophils which are emerging as key effectors of antibody therapy. Moreover, we report copper sequestration by neuroblastoma attenuates neutrophil function which can be successfully reversed using copper chelation to increase pro-inflammatory effector functions. Importantly, we repurpose the clinically approved copper chelating agent Cuprior as a non-toxic, efficacious immunomodulatory strategy. Collectively, our findings provide evidence for the clinical testing of Cuprior as an adjuvant to enhance the activity of anti-GD2 antibody therapy and improve outcomes for patients with neuroblastoma.",

author = "Rouaen, \{Jourdin R.C.\} and Antonietta Salerno and Tyler Shai-Hee and Murray, \{Jayne E.\} and Giulia Castrogiovanni and Charlotte McHenry and Jue, \{Toni Rose\} and Vu Pham and Bell, \{Jessica Lilian\} and Ensieh Poursani and Emanuele Valli and Riccardo Cazzoli and Naomi Damstra and Nelson, \{Delia J.\} and Stevens, \{Kofi L.P.\} and Jonathan Chee and Iveta Slapetova and Maria Kasherman and Renee Whan and Francis Lin and Cochran, \{Blake J.\} and Nicodemus Tedla and Veli, \{Feyza Colakoglu\} and Aysen Yuksel and Chelsea Mayoh and Federica Saletta and Daniele Mercatelli and Tatyana Chtanova and Arutha Kulasinghe and Daniel Catchpoole and Giuseppe Cirillo and Mat{\'e} Biro and Lode, \{Holger N.\} and Fabio Luciani and Michelle Haber and Gray, \{Juliet C.\} and Trahair, \{Toby N.\} and Orazio Vittorio",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-54689-x",

language = "English",

volume = "15",

journal = "Nature Communications",

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Rouaen, JRC, Salerno, A, Shai-Hee, T, Murray, JE, Castrogiovanni, G, McHenry, C, Jue, TR, Pham, V, Bell, JL, Poursani, E, Valli, E, Cazzoli, R, Damstra, N, Nelson, DJ, Stevens, KLP, Chee, J, Slapetova, I, Kasherman, M, Whan, R, Lin, F, Cochran, BJ, Tedla, N, Veli, FC, Yuksel, A, Mayoh, C, Saletta, F, Mercatelli, D, Chtanova, T, Kulasinghe, A, Catchpoole, D, Cirillo, G, Biro, M, Lode, HN, Luciani, F, Haber, M, Gray, JC, Trahair, TN & Vittorio, O 2024, 'Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma', Nature Communications, vol. 15, no. 1, 10462. https://doi.org/10.1038/s41467-024-54689-x

TY - JOUR

T1 - Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma

AU - Rouaen, Jourdin R.C.

AU - Salerno, Antonietta

AU - Shai-Hee, Tyler

AU - Murray, Jayne E.

AU - Castrogiovanni, Giulia

AU - McHenry, Charlotte

AU - Jue, Toni Rose

AU - Pham, Vu

AU - Bell, Jessica Lilian

AU - Poursani, Ensieh

AU - Valli, Emanuele

AU - Cazzoli, Riccardo

AU - Damstra, Naomi

AU - Nelson, Delia J.

AU - Stevens, Kofi L.P.

AU - Chee, Jonathan

AU - Slapetova, Iveta

AU - Kasherman, Maria

AU - Whan, Renee

AU - Lin, Francis

AU - Cochran, Blake J.

AU - Tedla, Nicodemus

AU - Veli, Feyza Colakoglu

AU - Yuksel, Aysen

AU - Mayoh, Chelsea

AU - Saletta, Federica

AU - Mercatelli, Daniele

AU - Chtanova, Tatyana

AU - Kulasinghe, Arutha

AU - Catchpoole, Daniel

AU - Cirillo, Giuseppe

AU - Biro, Maté

AU - Lode, Holger N.

AU - Luciani, Fabio

AU - Haber, Michelle

AU - Gray, Juliet C.

AU - Trahair, Toby N.

AU - Vittorio, Orazio

PY - 2024/12

Y1 - 2024/12

N2 - Anti-disialoganglioside (GD2) antibody therapy has provided clinical benefit to patients with neuroblastoma however efficacy is likely impaired by the immunosuppressive tumor microenvironment. We have previously defined a link between intratumoral copper levels and immune evasion. Here, we report that adjuvant copper chelation potentiates anti-GD2 antibody therapy to confer durable tumor control in immunocompetent models of neuroblastoma. Mechanistic studies reveal copper chelation creates an immune-primed tumor microenvironment through enhanced infiltration and activity of Fc-receptor-bearing cells, specifically neutrophils which are emerging as key effectors of antibody therapy. Moreover, we report copper sequestration by neuroblastoma attenuates neutrophil function which can be successfully reversed using copper chelation to increase pro-inflammatory effector functions. Importantly, we repurpose the clinically approved copper chelating agent Cuprior as a non-toxic, efficacious immunomodulatory strategy. Collectively, our findings provide evidence for the clinical testing of Cuprior as an adjuvant to enhance the activity of anti-GD2 antibody therapy and improve outcomes for patients with neuroblastoma.

AB - Anti-disialoganglioside (GD2) antibody therapy has provided clinical benefit to patients with neuroblastoma however efficacy is likely impaired by the immunosuppressive tumor microenvironment. We have previously defined a link between intratumoral copper levels and immune evasion. Here, we report that adjuvant copper chelation potentiates anti-GD2 antibody therapy to confer durable tumor control in immunocompetent models of neuroblastoma. Mechanistic studies reveal copper chelation creates an immune-primed tumor microenvironment through enhanced infiltration and activity of Fc-receptor-bearing cells, specifically neutrophils which are emerging as key effectors of antibody therapy. Moreover, we report copper sequestration by neuroblastoma attenuates neutrophil function which can be successfully reversed using copper chelation to increase pro-inflammatory effector functions. Importantly, we repurpose the clinically approved copper chelating agent Cuprior as a non-toxic, efficacious immunomodulatory strategy. Collectively, our findings provide evidence for the clinical testing of Cuprior as an adjuvant to enhance the activity of anti-GD2 antibody therapy and improve outcomes for patients with neuroblastoma.

UR - https://www.scopus.com/pages/publications/85211801239

U2 - 10.1038/s41467-024-54689-x

DO - 10.1038/s41467-024-54689-x

M3 - Article

AN - SCOPUS:85211801239

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 10462

ER -

Copper chelation redirects neutrophil function to enhance anti-GD2 antibody therapy in neuroblastoma

Abstract

Bibliographical note

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