Architecture of the neutrophil compartment

Daniela Cerezo-Wallis; Andrea Rubio-Ponce; Mathis Richter; Emanuele Pitino; Immanuel Kwok; Giovanni Marteletto; Ana Cristina Guanolema-Coba; Changming Shih; Run Kai Huang; Ana Moraga; Natalia Borbaran Bravo; Samuel Doré; Sergio Callejas; David G. Aragonés; Daniel Jiménez-Carretero; Daniel Martin; Samuel Ovadia; Tommaso Vicanolo; Georgiana Crainiciuc; Jon Sicilia; Tong Deng; Anjelica Martin; Jing Zhang; Maria Isabel Cuartero; Diego Moncada Giraldo; Alicia Garcia-Culebras; Alejandra Aroca-Crevillen; Sandra Martín-Salamanca; Carlos Torroja; Max Ruiz; Irene Ruano; Melissa S.F. Ng; Jian Hou; You Wang; Ming Zhang; Jun Pu; Ana Herruzo; David Chang van Oordt; Seokyoon Chang; Alexander E. Downie; Fei Chen; Andrea L. Graham; William C. Gause; Pierre O. Fiset; Jonathan D. Spicer; Holger Heyn; Maria A. Zuriaga; Juan A. Bernal; Irina A. Udalova; Maria A. Moro; Katrien de Bock; Ana Dopazo; Jose J. Fuster; Fátima Sánchez-Cabo; Juan C. Nieto; Gabriel F. Calvo; Julia Skokowa; Oliver Soehnlein; Daniela F. Quail; Logan A. Walsh; Lai Guan Ng; Andrés Hidalgo; Iván Ballesteros

doi:10.1038/s41586-025-09807-0

Architecture of the neutrophil compartment

Daniela Cerezo-Wallis
, Andrea Rubio-Ponce
, Mathis Richter
, Emanuele Pitino
, Immanuel Kwok
, Giovanni Marteletto
, Ana Cristina Guanolema-Coba
, Changming Shih
, Run Kai Huang
, Ana Moraga
, Natalia Borbaran Bravo
, Samuel Doré
, Sergio Callejas
, David G. Aragonés
, Daniel Jiménez-Carretero
, Daniel Martin
, Samuel Ovadia
, Tommaso Vicanolo
, Georgiana Crainiciuc
, Jon Sicilia

Tong Deng, Anjelica Martin, Jing Zhang, Maria Isabel Cuartero, Diego Moncada Giraldo, Alicia Garcia-Culebras, Alejandra Aroca-Crevillen, Sandra Martín-Salamanca, Carlos Torroja, Max Ruiz, Irene Ruano, Melissa S.F. Ng, Jian Hou, You Wang, Ming Zhang, Jun Pu, Ana Herruzo, David Chang van Oordt, Seokyoon Chang, Alexander E. Downie, Fei Chen, Andrea L. Graham, William C. Gause, Pierre O. Fiset, Jonathan D. Spicer, Holger Heyn, Maria A. Zuriaga, Juan A. Bernal, Irina A. Udalova, Maria A. Moro, Katrien de Bock, Ana Dopazo, Jose J. Fuster, Fátima Sánchez-Cabo, Juan C. Nieto, Gabriel F. Calvo, Julia Skokowa, Oliver Soehnlein, Daniela F. Quail, Logan A. Walsh, Lai Guan Ng, Andrés Hidalgo, Iván Ballesteros

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

Abstract

Neutrophils exhibit remarkable phenotypic and functional diversity across tissues and diseases^1,2, yet the lack of understanding of how this immune compartment is globally organized challenges translation to the clinic. Here we performed single-cell transcriptional profiling of neutrophils spanning 47 anatomical, physiological and pathological scenarios to generate an integrated map of the global neutrophil compartment in mice, which we refer to as NeuMap. NeuMap integrates and expands existing models^3,4 to generate fundamental new insights; it reveals that neutrophils organize in a finite number of functional hubs that distribute sequentially during maturation to then branch out into interferon-responsive and immunosuppressive states, as well as a functionally silent state that dominates in the healthy circulation. Computational modelling and timestamp analyses identify prototypical trajectories that connect these hubs, and reveal that the dynamics and preferred paths vary during health, inflammation and cancer. We show that TGFβ, IFNβ and GM-CSF push neutrophils along the different trajectories, and projection of chromatin accessibility sites onto NeuMap reveals that the transcription factor JUNB controls angiogenic and immunosuppressive states and promotes tissue revascularization. The architecture of NeuMap appears to be conserved across sex, environmental and genetic backgrounds, as well as in humans. Finally, we show that NeuMap enables inference of the pathophysiological state of the host by profiling blood neutrophils. Our study delineates the global architecture of the neutrophil compartment and establishes a framework for exploration and exploitation of neutrophil biology.

Original language	English
Journal	Nature
DOIs	https://doi.org/10.1038/s41586-025-09807-0
State	Accepted/In press - 2025
Externally published	Yes

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10.1038/s41586-025-09807-0

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Cerezo-Wallis, D., Rubio-Ponce, A., Richter, M., Pitino, E., Kwok, I., Marteletto, G., Guanolema-Coba, A. C., Shih, C., Huang, R. K., Moraga, A., Bravo, N. B., Doré, S., Callejas, S., Aragonés, D. G., Jiménez-Carretero, D., Martin, D., Ovadia, S., Vicanolo, T., Crainiciuc, G., ... Ballesteros, I. (Accepted/In press). Architecture of the neutrophil compartment. Nature. https://doi.org/10.1038/s41586-025-09807-0

@article{e1d3aa76ada6470fb047f1fcda66b8a2,

title = "Architecture of the neutrophil compartment",

abstract = "Neutrophils exhibit remarkable phenotypic and functional diversity across tissues and diseases1,2, yet the lack of understanding of how this immune compartment is globally organized challenges translation to the clinic. Here we performed single-cell transcriptional profiling of neutrophils spanning 47 anatomical, physiological and pathological scenarios to generate an integrated map of the global neutrophil compartment in mice, which we refer to as NeuMap. NeuMap integrates and expands existing models3,4 to generate fundamental new insights; it reveals that neutrophils organize in a finite number of functional hubs that distribute sequentially during maturation to then branch out into interferon-responsive and immunosuppressive states, as well as a functionally silent state that dominates in the healthy circulation. Computational modelling and timestamp analyses identify prototypical trajectories that connect these hubs, and reveal that the dynamics and preferred paths vary during health, inflammation and cancer. We show that TGFβ, IFNβ and GM-CSF push neutrophils along the different trajectories, and projection of chromatin accessibility sites onto NeuMap reveals that the transcription factor JUNB controls angiogenic and immunosuppressive states and promotes tissue revascularization. The architecture of NeuMap appears to be conserved across sex, environmental and genetic backgrounds, as well as in humans. Finally, we show that NeuMap enables inference of the pathophysiological state of the host by profiling blood neutrophils. Our study delineates the global architecture of the neutrophil compartment and establishes a framework for exploration and exploitation of neutrophil biology.",

author = "Daniela Cerezo-Wallis and Andrea Rubio-Ponce and Mathis Richter and Emanuele Pitino and Immanuel Kwok and Giovanni Marteletto and Guanolema-Coba, \{Ana Cristina\} and Changming Shih and Huang, \{Run Kai\} and Ana Moraga and Bravo, \{Natalia Borbaran\} and Samuel Dor{\'e} and Sergio Callejas and Aragon{\'e}s, \{David G.\} and Daniel Jim{\'e}nez-Carretero and Daniel Martin and Samuel Ovadia and Tommaso Vicanolo and Georgiana Crainiciuc and Jon Sicilia and Tong Deng and Anjelica Martin and Jing Zhang and Cuartero, \{Maria Isabel\} and Giraldo, \{Diego Moncada\} and Alicia Garcia-Culebras and Alejandra Aroca-Crevillen and Sandra Mart{\'i}n-Salamanca and Carlos Torroja and Max Ruiz and Irene Ruano and Ng, \{Melissa S.F.\} and Jian Hou and You Wang and Ming Zhang and Jun Pu and Ana Herruzo and \{van Oordt\}, \{David Chang\} and Seokyoon Chang and Downie, \{Alexander E.\} and Fei Chen and Graham, \{Andrea L.\} and Gause, \{William C.\} and Fiset, \{Pierre O.\} and Spicer, \{Jonathan D.\} and Holger Heyn and Zuriaga, \{Maria A.\} and Bernal, \{Juan A.\} and Udalova, \{Irina A.\} and Moro, \{Maria A.\} and \{de Bock\}, Katrien and Ana Dopazo and Fuster, \{Jose J.\} and F{\'a}tima S{\'a}nchez-Cabo and Nieto, \{Juan C.\} and Calvo, \{Gabriel F.\} and Julia Skokowa and Oliver Soehnlein and Quail, \{Daniela F.\} and Walsh, \{Logan A.\} and Ng, \{Lai Guan\} and Andr{\'e}s Hidalgo and Iv{\'a}n Ballesteros",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1038/s41586-025-09807-0",

language = "English",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

}

Cerezo-Wallis, D, Rubio-Ponce, A, Richter, M, Pitino, E, Kwok, I, Marteletto, G, Guanolema-Coba, AC, Shih, C, Huang, RK, Moraga, A, Bravo, NB, Doré, S, Callejas, S, Aragonés, DG, Jiménez-Carretero, D, Martin, D, Ovadia, S, Vicanolo, T, Crainiciuc, G, Sicilia, J, Deng, T, Martin, A, Zhang, J, Cuartero, MI, Giraldo, DM, Garcia-Culebras, A, Aroca-Crevillen, A, Martín-Salamanca, S, Torroja, C, Ruiz, M, Ruano, I, Ng, MSF, Hou, J, Wang, Y, Zhang, M, Pu, J, Herruzo, A, van Oordt, DC, Chang, S, Downie, AE, Chen, F, Graham, AL, Gause, WC, Fiset, PO, Spicer, JD, Heyn, H, Zuriaga, MA, Bernal, JA, Udalova, IA, Moro, MA, de Bock, K, Dopazo, A, Fuster, JJ, Sánchez-Cabo, F, Nieto, JC, Calvo, GF, Skokowa, J, Soehnlein, O, Quail, DF, Walsh, LA, Ng, LG, Hidalgo, A & Ballesteros, I 2025, 'Architecture of the neutrophil compartment', Nature. https://doi.org/10.1038/s41586-025-09807-0

TY - JOUR

T1 - Architecture of the neutrophil compartment

AU - Cerezo-Wallis, Daniela

AU - Rubio-Ponce, Andrea

AU - Richter, Mathis

AU - Pitino, Emanuele

AU - Kwok, Immanuel

AU - Marteletto, Giovanni

AU - Guanolema-Coba, Ana Cristina

AU - Shih, Changming

AU - Huang, Run Kai

AU - Moraga, Ana

AU - Bravo, Natalia Borbaran

AU - Doré, Samuel

AU - Callejas, Sergio

AU - Aragonés, David G.

AU - Jiménez-Carretero, Daniel

AU - Martin, Daniel

AU - Ovadia, Samuel

AU - Vicanolo, Tommaso

AU - Crainiciuc, Georgiana

AU - Sicilia, Jon

AU - Deng, Tong

AU - Martin, Anjelica

AU - Zhang, Jing

AU - Cuartero, Maria Isabel

AU - Giraldo, Diego Moncada

AU - Garcia-Culebras, Alicia

AU - Aroca-Crevillen, Alejandra

AU - Martín-Salamanca, Sandra

AU - Torroja, Carlos

AU - Ruiz, Max

AU - Ruano, Irene

AU - Ng, Melissa S.F.

AU - Hou, Jian

AU - Wang, You

AU - Zhang, Ming

AU - Pu, Jun

AU - Herruzo, Ana

AU - van Oordt, David Chang

AU - Chang, Seokyoon

AU - Downie, Alexander E.

AU - Chen, Fei

AU - Graham, Andrea L.

AU - Gause, William C.

AU - Fiset, Pierre O.

AU - Spicer, Jonathan D.

AU - Heyn, Holger

AU - Zuriaga, Maria A.

AU - Bernal, Juan A.

AU - Udalova, Irina A.

AU - Moro, Maria A.

AU - de Bock, Katrien

AU - Dopazo, Ana

AU - Fuster, Jose J.

AU - Sánchez-Cabo, Fátima

AU - Nieto, Juan C.

AU - Calvo, Gabriel F.

AU - Skokowa, Julia

AU - Soehnlein, Oliver

AU - Quail, Daniela F.

AU - Walsh, Logan A.

AU - Ng, Lai Guan

AU - Hidalgo, Andrés

AU - Ballesteros, Iván

PY - 2025

Y1 - 2025

N2 - Neutrophils exhibit remarkable phenotypic and functional diversity across tissues and diseases1,2, yet the lack of understanding of how this immune compartment is globally organized challenges translation to the clinic. Here we performed single-cell transcriptional profiling of neutrophils spanning 47 anatomical, physiological and pathological scenarios to generate an integrated map of the global neutrophil compartment in mice, which we refer to as NeuMap. NeuMap integrates and expands existing models3,4 to generate fundamental new insights; it reveals that neutrophils organize in a finite number of functional hubs that distribute sequentially during maturation to then branch out into interferon-responsive and immunosuppressive states, as well as a functionally silent state that dominates in the healthy circulation. Computational modelling and timestamp analyses identify prototypical trajectories that connect these hubs, and reveal that the dynamics and preferred paths vary during health, inflammation and cancer. We show that TGFβ, IFNβ and GM-CSF push neutrophils along the different trajectories, and projection of chromatin accessibility sites onto NeuMap reveals that the transcription factor JUNB controls angiogenic and immunosuppressive states and promotes tissue revascularization. The architecture of NeuMap appears to be conserved across sex, environmental and genetic backgrounds, as well as in humans. Finally, we show that NeuMap enables inference of the pathophysiological state of the host by profiling blood neutrophils. Our study delineates the global architecture of the neutrophil compartment and establishes a framework for exploration and exploitation of neutrophil biology.

AB - Neutrophils exhibit remarkable phenotypic and functional diversity across tissues and diseases1,2, yet the lack of understanding of how this immune compartment is globally organized challenges translation to the clinic. Here we performed single-cell transcriptional profiling of neutrophils spanning 47 anatomical, physiological and pathological scenarios to generate an integrated map of the global neutrophil compartment in mice, which we refer to as NeuMap. NeuMap integrates and expands existing models3,4 to generate fundamental new insights; it reveals that neutrophils organize in a finite number of functional hubs that distribute sequentially during maturation to then branch out into interferon-responsive and immunosuppressive states, as well as a functionally silent state that dominates in the healthy circulation. Computational modelling and timestamp analyses identify prototypical trajectories that connect these hubs, and reveal that the dynamics and preferred paths vary during health, inflammation and cancer. We show that TGFβ, IFNβ and GM-CSF push neutrophils along the different trajectories, and projection of chromatin accessibility sites onto NeuMap reveals that the transcription factor JUNB controls angiogenic and immunosuppressive states and promotes tissue revascularization. The architecture of NeuMap appears to be conserved across sex, environmental and genetic backgrounds, as well as in humans. Finally, we show that NeuMap enables inference of the pathophysiological state of the host by profiling blood neutrophils. Our study delineates the global architecture of the neutrophil compartment and establishes a framework for exploration and exploitation of neutrophil biology.

UR - https://www.scopus.com/pages/publications/105023968534

U2 - 10.1038/s41586-025-09807-0

DO - 10.1038/s41586-025-09807-0

M3 - Article

C2 - 41339555

AN - SCOPUS:105023968534

SN - 0028-0836

JO - Nature

JF - Nature

ER -

Architecture of the neutrophil compartment

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