Department of Clinical Sciences, Danderyd Hospital, Karolinska Institutet, Stockholm, Sweden; Department of Hematology, Karolinska University Hospital, Stockholm, Sweden.
Center for Molecular and Vascular Biology, Department of Cardiovascular Sciences, KU Leuven, Leuven, Belgium.
Thromb Res. 2022 May;213 Suppl 1:S35-S41. doi: 10.1016/j.thromres.2021.12.018. Epub 2022 May 26.
The hypercoagulable state associated with malignancy is well described. However, the mechanisms by which tumors cause this hypercoagulable state are yet to be fully understood. This review summarizes the available literature of human and animal studies examining NETs and cancer-associated thrombosis. The methods for detecting and quantifying NET formation are growing but are not yet standardized in practice. Furthermore, it is important to distinguish between measuring neutrophil activation and NET formation, as the former can be present without the latter. Citrullination of histones by peptidylarginine deiminase 4 (PAD4) is considered one of the key pathways leading to NET formation. Cancer cells can prime neutrophils toward NET formation through the release of soluble mediators, such as interleukin-8, and activation of platelets, and may cause excess NET formation. Dismantling NETs through exogenous deoxyribonuclease has been shown to degrade NETs and reduce thrombus formation in vitro but may simultaneously release prothrombotic NET components, such as DNA and histones. Inhibiting PAD4 is far from clinical trials, but animal models show promising results with a potentially favorable safety profile. Interestingly, results from animal studies suggest that several therapies approved for other indications, such as interleukin-1 receptor blockade and JAK inhibition, may mitigate excessive NET formation or the prothrombotic effects of NETs in cancer. It is yet to be determined if inhibition of NET formation reduces cancer-associated thrombosis also in the clinical setting.
恶性肿瘤相关的高凝状态已有明确的描述。然而,肿瘤导致这种高凝状态的机制尚未完全被理解。本综述总结了目前关于检查 NETs 和癌症相关血栓形成的人类和动物研究的文献。检测和定量 NET 形成的方法正在不断发展,但在实践中尚未标准化。此外,区分中性粒细胞活化和 NET 形成非常重要,因为前者可能存在而后者不存在。组蛋白的瓜氨酸化由肽基精氨酸脱亚氨酶 4(PAD4)介导,被认为是导致 NET 形成的关键途径之一。癌细胞可以通过释放可溶性介质(如白细胞介素-8)和激活血小板来促使中性粒细胞向 NET 形成转化,并可能导致 NET 形成过度。通过外源性脱氧核糖核酸酶来破坏 NET 已被证明可以在体外降解 NET 并减少血栓形成,但可能同时释放促血栓形成的 NET 成分,如 DNA 和组蛋白。抑制 PAD4 还远未进行临床试验,但动物模型显示出有希望的结果,具有潜在有利的安全性特征。有趣的是,动物研究的结果表明,几种已批准用于其他适应证的治疗方法,如白细胞介素-1 受体阻断和 JAK 抑制,可能减轻 NET 形成过度或 NETs 在癌症中的促血栓形成作用。抑制 NET 形成是否也能在临床环境中降低癌症相关的血栓形成,仍有待确定。
