Pekayvaz Kami, Kilani Badr, Joppich Markus, Eivers Luke, Brambs Sophia, Knottenberg Viktoria, Akgöl Sezer, Yue Keyang, Li Lukas, Martinez-Navarro Alejandro, Kaiser Rainer, Meißner Nina, Schulz Heiko, Belz Larissa, Akhalkatsi Anastassia, Stockhausen Sven, Mueller Tonina T, Millonig Simon, Hartelt Lea, Gold Christoph, Janjic Aleksandar, Polewka Vivien, Wendler Franziska, Droste Zu Senden Augustin, Titova Anna, Leunig Alexander, Voelkl Michael, Engelmann Bernd, Hernandez Petzsche Moritz R, Boeckh-Behrens Tobias, Liebig Thomas, Winning Sandra, Fandrey Joachim, Dichgans Martin, Enard Wolfgang, Zimmer Ralf, Tiedt Steffen, Massberg Steffen, Nicolai Leo, Stark Konstantin
Department of Medicine I, University Hospital, LMU Munich, Munich, Germany; DZHK (German Centre for Cardiovascular Research), partner site Munich Heart Alliance, Munich, Germany.
Department of Medicine I, University Hospital, LMU Munich, Munich, Germany.
Immunity. 2025 May 13;58(5):1343-1358.e13. doi: 10.1016/j.immuni.2025.03.020. Epub 2025 Apr 24.
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 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.
血栓性疾病仍然是全球范围内死亡和残疾的主要原因,炎症的作用也越来越受到认可。血栓炎症已被确定为关键的病理机制,但缺乏单细胞水平上免疫细胞状态、轨迹和相互交流的无监督图谱。在这里,我们通过对人类中风血栓采用单细胞组学方法,揭示了具有显著溶栓特性的先天性白细胞亚群。利用体内和体外血栓形成模型,我们提出了一种促消退的单核细胞-中性粒细胞轴,它结合了两个特性:(1)NR4A1非经典单核细胞获得溶栓和中性粒细胞趋化表型,(2)血液中的中性粒细胞通过CXCL8-CXCR1和CXCR2持续被招募到已形成的血栓中,并呈现缺氧诱导的血栓溶解尿激酶受体(PLAUR)表型。这种免疫溶栓轴导致血栓溶解。连同这种血栓形成的免疫格局,我们提供了一个有价值的资源,并引入了“免疫溶栓”的概念,在炎症和血栓形成的交叉点上具有广泛的机制和转化意义。
