Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution

Kami Pekayvaz; Badr Kilani; Markus Joppich; Luke Eivers; Sophia Brambs; Viktoria Knottenberg; Sezer Akgöl; Keyang Yue; Lukas Li; Alejandro Martinez-Navarro; Rainer Kaiser; Nina Meißner; Heiko Schulz; Larissa Belz; Anastassia Akhalkatsi; Sven Stockhausen; Tonina T. Mueller; Simon Millonig; Lea Hartelt; Christoph Gold; Aleksandar Janjic; Vivien Polewka; Franziska Wendler; Augustin Droste zu Senden; Anna Titova; Alexander Leunig; Michael Voelkl; Bernd Engelmann; Moritz R. Hernandez Petzsche; Tobias Boeckh-Behrens; Thomas Liebig; Sandra Winning; Joachim Fandrey; Martin Dichgans; Wolfgang Enard; Ralf Zimmer; Steffen Tiedt; Steffen Massberg; Leo Nicolai; Konstantin Stark

doi:10.1016/j.immuni.2025.03.020

Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution

Kami Pekayvaz^*
, Badr Kilani
, Markus Joppich
, Luke Eivers
, Sophia Brambs
, Viktoria Knottenberg
, Sezer Akgöl
, Keyang Yue
, Lukas Li
, Alejandro Martinez-Navarro
, Rainer Kaiser
, Nina Meißner
, Heiko Schulz
, Larissa Belz
, Anastassia Akhalkatsi
, Sven Stockhausen
, Tonina T. Mueller
, Simon Millonig
, Lea Hartelt
, Christoph Gold

Aleksandar Janjic, Vivien Polewka, Franziska Wendler, Augustin Droste zu Senden, Anna Titova, Alexander Leunig, Michael Voelkl, Bernd Engelmann, Moritz R. Hernandez Petzsche, Tobias Boeckh-Behrens, Thomas Liebig, Sandra Winning, Joachim Fandrey, Martin Dichgans, Wolfgang Enard, Ralf Zimmer, Steffen Tiedt, Steffen Massberg, Leo Nicolai^*, Konstantin Stark^*

^*Corresponding author for this work

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

7 Scopus citations

Abstract

Thrombotic diseases remain the major cause of death and disability worldwide, and the contribution of inflammation is increasingly recognized. Thromboinflammation has been identified as a key pathomechanism, but an unsupervised map of immune-cell states, trajectories, and intercommunication at a single-cell level has been lacking. Here, we reveal innate leukocyte substates with prominent thrombolytic properties by employing single-cell omics measures on human stroke thrombi. Using in vivo and in vitro thrombosis models, we propose a pro-resolving monocyte-neutrophil axis, combining two properties: (1) NR4A1^hi non-classical monocytes acquire a thrombolytic and neutrophil-chemoattractive phenotype, and (2) blood neutrophils are thereby continuously recruited to established thrombi through CXCL8-CXCR1 and CXCR2 and adopt a hypoxia-induced thrombus-resolving urokinase receptor (PLAUR)⁺ phenotype. This immunothrombolytic axis results in thrombus resolution. Together, with this immune landscape of thrombosis, we provide a valuable resource and introduce the concept of “immunothrombolysis” with broad mechanistic and translational implications at the crossroad of inflammation and thrombosis.

Original language	English
Pages (from-to)	1343-1358.e13
Journal	Immunity
Volume	58
Issue number	5
DOIs	https://doi.org/10.1016/j.immuni.2025.03.020
State	Published - 13 May 2025
Externally published	Yes

Keywords

immune landscape
immune-cell plasticity
immunothrombolysis
immunothrombosis
immunothrombotic dysregulation
innate immunity
monocytes
multi-omics
neutrophils
organ ischemia
single-cell
stroke
thromboinflammation
thrombosis
thrombus resolution

Access to Document

10.1016/j.immuni.2025.03.020

Cite this

Pekayvaz, K., Kilani, B., Joppich, M., Eivers, L., Brambs, S., Knottenberg, V., Akgöl, S., Yue, K., Li, L., Martinez-Navarro, A., Kaiser, R., Meißner, N., Schulz, H., Belz, L., Akhalkatsi, A., Stockhausen, S., Mueller, T. T., Millonig, S., Hartelt, L., ... Stark, K. (2025). Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution. Immunity, 58(5), 1343-1358.e13. https://doi.org/10.1016/j.immuni.2025.03.020

@article{babde78ee5ad4076bd8dfde706e223ff,

title = "Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution",

abstract = "Thrombotic diseases remain the major cause of death and disability worldwide, and the contribution of inflammation is increasingly recognized. Thromboinflammation has been identified as a key pathomechanism, but an unsupervised map of immune-cell states, trajectories, and intercommunication at a single-cell level has been lacking. Here, we reveal innate leukocyte substates with prominent thrombolytic properties by employing single-cell omics measures on human stroke thrombi. Using in vivo and in vitro thrombosis models, we propose a pro-resolving monocyte-neutrophil axis, combining two properties: (1) NR4A1hi non-classical monocytes acquire a thrombolytic and neutrophil-chemoattractive phenotype, and (2) blood neutrophils are thereby continuously recruited to established thrombi through CXCL8-CXCR1 and CXCR2 and adopt a hypoxia-induced thrombus-resolving urokinase receptor (PLAUR)+ phenotype. This immunothrombolytic axis results in thrombus resolution. Together, with this immune landscape of thrombosis, we provide a valuable resource and introduce the concept of “immunothrombolysis” with broad mechanistic and translational implications at the crossroad of inflammation and thrombosis.",

keywords = "immune landscape, immune-cell plasticity, immunothrombolysis, immunothrombosis, immunothrombotic dysregulation, innate immunity, monocytes, multi-omics, neutrophils, organ ischemia, single-cell, stroke, thromboinflammation, thrombosis, thrombus resolution",

author = "Kami Pekayvaz and Badr Kilani and Markus Joppich and Luke Eivers and Sophia Brambs and Viktoria Knottenberg and Sezer Akg{\"o}l and Keyang Yue and Lukas Li and Alejandro Martinez-Navarro and Rainer Kaiser and Nina Mei{\ss}ner and Heiko Schulz and Larissa Belz and Anastassia Akhalkatsi and Sven Stockhausen and Mueller, \{Tonina T.\} and Simon Millonig and Lea Hartelt and Christoph Gold and Aleksandar Janjic and Vivien Polewka and Franziska Wendler and \{Droste zu Senden\}, Augustin and Anna Titova and Alexander Leunig and Michael Voelkl and Bernd Engelmann and \{Hernandez Petzsche\}, \{Moritz R.\} and Tobias Boeckh-Behrens and Thomas Liebig and Sandra Winning and Joachim Fandrey and Martin Dichgans and Wolfgang Enard and Ralf Zimmer and Steffen Tiedt and Steffen Massberg and Leo Nicolai and Konstantin Stark",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = may,

day = "13",

doi = "10.1016/j.immuni.2025.03.020",

language = "English",

volume = "58",

pages = "1343--1358.e13",

journal = "Immunity",

issn = "1074-7613",

number = "5",

}

Pekayvaz, K, Kilani, B, Joppich, M, Eivers, L, Brambs, S, Knottenberg, V, Akgöl, S, Yue, K, Li, L, Martinez-Navarro, A, Kaiser, R, Meißner, N, Schulz, H, Belz, L, Akhalkatsi, A, Stockhausen, S, Mueller, TT, Millonig, S, Hartelt, L, Gold, C, Janjic, A, Polewka, V, Wendler, F, Droste zu Senden, A, Titova, A, Leunig, A, Voelkl, M, Engelmann, B, Hernandez Petzsche, MR, Boeckh-Behrens, T, Liebig, T, Winning, S, Fandrey, J, Dichgans, M, Enard, W, Zimmer, R, Tiedt, S, Massberg, S, Nicolai, L & Stark, K 2025, 'Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution', Immunity, vol. 58, no. 5, pp. 1343-1358.e13. https://doi.org/10.1016/j.immuni.2025.03.020

TY - JOUR

T1 - Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution

AU - Pekayvaz, Kami

AU - Kilani, Badr

AU - Joppich, Markus

AU - Eivers, Luke

AU - Brambs, Sophia

AU - Knottenberg, Viktoria

AU - Akgöl, Sezer

AU - Yue, Keyang

AU - Li, Lukas

AU - Martinez-Navarro, Alejandro

AU - Kaiser, Rainer

AU - Meißner, Nina

AU - Schulz, Heiko

AU - Belz, Larissa

AU - Akhalkatsi, Anastassia

AU - Stockhausen, Sven

AU - Mueller, Tonina T.

AU - Millonig, Simon

AU - Hartelt, Lea

AU - Gold, Christoph

AU - Janjic, Aleksandar

AU - Polewka, Vivien

AU - Wendler, Franziska

AU - Droste zu Senden, Augustin

AU - Titova, Anna

AU - Leunig, Alexander

AU - Voelkl, Michael

AU - Engelmann, Bernd

AU - Hernandez Petzsche, Moritz R.

AU - Boeckh-Behrens, Tobias

AU - Liebig, Thomas

AU - Winning, Sandra

AU - Fandrey, Joachim

AU - Dichgans, Martin

AU - Enard, Wolfgang

AU - Zimmer, Ralf

AU - Tiedt, Steffen

AU - Massberg, Steffen

AU - Nicolai, Leo

AU - Stark, Konstantin

PY - 2025/5/13

Y1 - 2025/5/13

N2 - Thrombotic diseases remain the major cause of death and disability worldwide, and the contribution of inflammation is increasingly recognized. Thromboinflammation has been identified as a key pathomechanism, but an unsupervised map of immune-cell states, trajectories, and intercommunication at a single-cell level has been lacking. Here, we reveal innate leukocyte substates with prominent thrombolytic properties by employing single-cell omics measures on human stroke thrombi. Using in vivo and in vitro thrombosis models, we propose a pro-resolving monocyte-neutrophil axis, combining two properties: (1) NR4A1hi non-classical monocytes acquire a thrombolytic and neutrophil-chemoattractive phenotype, and (2) blood neutrophils are thereby continuously recruited to established thrombi through CXCL8-CXCR1 and CXCR2 and adopt a hypoxia-induced thrombus-resolving urokinase receptor (PLAUR)+ phenotype. This immunothrombolytic axis results in thrombus resolution. Together, with this immune landscape of thrombosis, we provide a valuable resource and introduce the concept of “immunothrombolysis” with broad mechanistic and translational implications at the crossroad of inflammation and thrombosis.

AB - Thrombotic diseases remain the major cause of death and disability worldwide, and the contribution of inflammation is increasingly recognized. Thromboinflammation has been identified as a key pathomechanism, but an unsupervised map of immune-cell states, trajectories, and intercommunication at a single-cell level has been lacking. Here, we reveal innate leukocyte substates with prominent thrombolytic properties by employing single-cell omics measures on human stroke thrombi. Using in vivo and in vitro thrombosis models, we propose a pro-resolving monocyte-neutrophil axis, combining two properties: (1) NR4A1hi non-classical monocytes acquire a thrombolytic and neutrophil-chemoattractive phenotype, and (2) blood neutrophils are thereby continuously recruited to established thrombi through CXCL8-CXCR1 and CXCR2 and adopt a hypoxia-induced thrombus-resolving urokinase receptor (PLAUR)+ phenotype. This immunothrombolytic axis results in thrombus resolution. Together, with this immune landscape of thrombosis, we provide a valuable resource and introduce the concept of “immunothrombolysis” with broad mechanistic and translational implications at the crossroad of inflammation and thrombosis.

KW - immune landscape

KW - immune-cell plasticity

KW - immunothrombolysis

KW - immunothrombosis

KW - immunothrombotic dysregulation

KW - innate immunity

KW - monocytes

KW - multi-omics

KW - neutrophils

KW - organ ischemia

KW - single-cell

KW - stroke

KW - thromboinflammation

KW - thrombosis

KW - thrombus resolution

UR - https://www.scopus.com/pages/publications/105004587986

U2 - 10.1016/j.immuni.2025.03.020

DO - 10.1016/j.immuni.2025.03.020

M3 - Article

C2 - 40280129

AN - SCOPUS:105004587986

SN - 1074-7613

VL - 58

SP - 1343-1358.e13

JO - Immunity

JF - Immunity

IS - 5

ER -

Immunothrombolytic monocyte-neutrophil axes dominate the single-cell landscape of human thrombosis and correlate with thrombus resolution

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this