A circadian checkpoint relocates neutrophils to minimize injury

Alejandra Aroca-Crevillen; Sandra Martin-Salamanca; Lidiane S. Torres; Georgiana Crainiciuc; Jon Sicilia; Eduardo Penaloza-Martinez; Nicolas Rosillo; Miguel Molina-Moreno; Jose M. Adrover; Andrea Rubio-Ponce; Tommaso Vicanolo; Xiaosong Liu; Kanin Wichapong; Vanessa Nunez; Karl Balabanian; Francoise Bachelerie; David Sancho; Maria Casanova-Acebes; Jose T. Ortiz-Perez; Maria Angeles Moro; Hector Bueno; Gerry A. F. Nicolaes; Andres Hidalgo

doi:10.1084/jem.20250240

A circadian checkpoint relocates neutrophils to minimize injury

Alejandra Aroca-Crevillen
, Sandra Martin-Salamanca
, Lidiane S. Torres
, Georgiana Crainiciuc
, Jon Sicilia
, Eduardo Penaloza-Martinez
, Nicolas Rosillo
, Miguel Molina-Moreno
, Jose M. Adrover
, Andrea Rubio-Ponce
, Tommaso Vicanolo
, Xiaosong Liu
, Kanin Wichapong
, Vanessa Nunez
, Karl Balabanian
, Francoise Bachelerie
, David Sancho
, Maria Casanova-Acebes
, Jose T. Ortiz-Perez
, Maria Angeles Moro

Hector Bueno, Gerry A. F. Nicolaes, Andres Hidalgo^*

^*Corresponding author for this work

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

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Abstract

Inflammation-driven injury, a significant source of morbidity and mortality worldwide, is largely mediated by the cytotoxic activities of neutrophils, which extend the initial lesion and jeopardize organ function. Intriguingly, inflammatory injury naturally declines at specific times of day, suggesting that circadian mechanisms exist that mitigate the destructive activity of neutrophils and protect the host. Here, we show that the periods of diurnal protection coincide with peaks in plasma CXCL12, a chemokine that inhibits the neutrophil-intrinsic circadian clock by signaling through CXCR4. Genetic deletion of this clock, or a hyperactive form of CXCR4, prevented the diurnal spikes of injury, and treatment with a synthetic CXCR4 agonist conferred protection from myocardial and vascular injury. In tissues, this protection was mediated by repositioning neutrophils in the wound core, which spared neighboring host cells from apoptotic death. Thus, a circadian neutrophil checkpoint protects from exuberant inflammation and can be activated to protect the host.

Original language	English
Article number	e20250240
Number of pages	31
Journal	Journal of Experimental Medicine
Volume	223
Issue number	2
DOIs	https://doi.org/10.1084/jem.20250240
Publication status	Published - 12 Dec 2025

Keywords

BONE-MARROW
INFARCT SIZE
MYOCARDIAL-INFARCTION
FLUORESCENT PROTEIN
CXCR4
MOUSE
CELLS
MODULATION
EXPRESSION
CHEMOKINES

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Aroca-Crevillen, A., Martin-Salamanca, S., Torres, L. S., Crainiciuc, G., Sicilia, J., Penaloza-Martinez, E., Rosillo, N., Molina-Moreno, M., Adrover, J. M., Rubio-Ponce, A., Vicanolo, T., Liu, X., Wichapong, K., Nunez, V., Balabanian, K., Bachelerie, F., Sancho, D., Casanova-Acebes, M., Ortiz-Perez, J. T., ... Hidalgo, A. (2025). A circadian checkpoint relocates neutrophils to minimize injury. Journal of Experimental Medicine, 223(2), Article e20250240. https://doi.org/10.1084/jem.20250240

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title = "A circadian checkpoint relocates neutrophils to minimize injury",

abstract = "Inflammation-driven injury, a significant source of morbidity and mortality worldwide, is largely mediated by the cytotoxic activities of neutrophils, which extend the initial lesion and jeopardize organ function. Intriguingly, inflammatory injury naturally declines at specific times of day, suggesting that circadian mechanisms exist that mitigate the destructive activity of neutrophils and protect the host. Here, we show that the periods of diurnal protection coincide with peaks in plasma CXCL12, a chemokine that inhibits the neutrophil-intrinsic circadian clock by signaling through CXCR4. Genetic deletion of this clock, or a hyperactive form of CXCR4, prevented the diurnal spikes of injury, and treatment with a synthetic CXCR4 agonist conferred protection from myocardial and vascular injury. In tissues, this protection was mediated by repositioning neutrophils in the wound core, which spared neighboring host cells from apoptotic death. Thus, a circadian neutrophil checkpoint protects from exuberant inflammation and can be activated to protect the host.",

keywords = "BONE-MARROW, INFARCT SIZE, MYOCARDIAL-INFARCTION, FLUORESCENT PROTEIN, CXCR4, MOUSE, CELLS, MODULATION, EXPRESSION, CHEMOKINES",

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Aroca-Crevillen, A, Martin-Salamanca, S, Torres, LS, Crainiciuc, G, Sicilia, J, Penaloza-Martinez, E, Rosillo, N, Molina-Moreno, M, Adrover, JM, Rubio-Ponce, A, Vicanolo, T, Liu, X, Wichapong, K, Nunez, V, Balabanian, K, Bachelerie, F, Sancho, D, Casanova-Acebes, M, Ortiz-Perez, JT, Moro, MA, Bueno, H, Nicolaes, GAF & Hidalgo, A 2025, 'A circadian checkpoint relocates neutrophils to minimize injury', Journal of Experimental Medicine, vol. 223, no. 2, e20250240. https://doi.org/10.1084/jem.20250240

TY - JOUR

T1 - A circadian checkpoint relocates neutrophils to minimize injury

AU - Aroca-Crevillen, Alejandra

AU - Martin-Salamanca, Sandra

AU - Torres, Lidiane S.

AU - Crainiciuc, Georgiana

AU - Sicilia, Jon

AU - Penaloza-Martinez, Eduardo

AU - Rosillo, Nicolas

AU - Molina-Moreno, Miguel

AU - Adrover, Jose M.

AU - Rubio-Ponce, Andrea

AU - Vicanolo, Tommaso

AU - Liu, Xiaosong

AU - Wichapong, Kanin

AU - Nunez, Vanessa

AU - Balabanian, Karl

AU - Bachelerie, Francoise

AU - Sancho, David

AU - Casanova-Acebes, Maria

AU - Ortiz-Perez, Jose T.

AU - Moro, Maria Angeles

AU - Bueno, Hector

AU - Nicolaes, Gerry A. F.

AU - Hidalgo, Andres

PY - 2025/12/12

Y1 - 2025/12/12

N2 - Inflammation-driven injury, a significant source of morbidity and mortality worldwide, is largely mediated by the cytotoxic activities of neutrophils, which extend the initial lesion and jeopardize organ function. Intriguingly, inflammatory injury naturally declines at specific times of day, suggesting that circadian mechanisms exist that mitigate the destructive activity of neutrophils and protect the host. Here, we show that the periods of diurnal protection coincide with peaks in plasma CXCL12, a chemokine that inhibits the neutrophil-intrinsic circadian clock by signaling through CXCR4. Genetic deletion of this clock, or a hyperactive form of CXCR4, prevented the diurnal spikes of injury, and treatment with a synthetic CXCR4 agonist conferred protection from myocardial and vascular injury. In tissues, this protection was mediated by repositioning neutrophils in the wound core, which spared neighboring host cells from apoptotic death. Thus, a circadian neutrophil checkpoint protects from exuberant inflammation and can be activated to protect the host.

AB - Inflammation-driven injury, a significant source of morbidity and mortality worldwide, is largely mediated by the cytotoxic activities of neutrophils, which extend the initial lesion and jeopardize organ function. Intriguingly, inflammatory injury naturally declines at specific times of day, suggesting that circadian mechanisms exist that mitigate the destructive activity of neutrophils and protect the host. Here, we show that the periods of diurnal protection coincide with peaks in plasma CXCL12, a chemokine that inhibits the neutrophil-intrinsic circadian clock by signaling through CXCR4. Genetic deletion of this clock, or a hyperactive form of CXCR4, prevented the diurnal spikes of injury, and treatment with a synthetic CXCR4 agonist conferred protection from myocardial and vascular injury. In tissues, this protection was mediated by repositioning neutrophils in the wound core, which spared neighboring host cells from apoptotic death. Thus, a circadian neutrophil checkpoint protects from exuberant inflammation and can be activated to protect the host.

KW - BONE-MARROW

KW - INFARCT SIZE

KW - MYOCARDIAL-INFARCTION

KW - FLUORESCENT PROTEIN

KW - CXCR4

KW - MOUSE

KW - CELLS

KW - MODULATION

KW - EXPRESSION

KW - CHEMOKINES

U2 - 10.1084/jem.20250240

DO - 10.1084/jem.20250240

M3 - Article

SN - 0022-1007

VL - 223

JO - Journal of Experimental Medicine

JF - Journal of Experimental Medicine

IS - 2

M1 - e20250240

ER -

A circadian checkpoint relocates neutrophils to minimize injury

Abstract

Keywords

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