Monocyte adhesion to and transmigration through endothelium following cardiopulmonary bypass shearing is mediated by IL-8 signaling.

IF 2.8 3区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Frontiers in Cardiovascular Medicine Pub Date : 2024-12-11 eCollection Date: 2024-01-01 DOI:10.3389/fcvm.2024.1454302

Hao Zhou, Marta Scatena, Lan N Tu, Cecilia M Giachelli, Vishal Nigam

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引用次数: 0

Abstract

Introduction: The use of cardiopulmonary bypass (CPB) can induce sterile systemic inflammation that contributes to morbidity and mortality, especially in children. Patients have been found to have increased expression of cytokines and transmigration of leukocytes during and after CPB. Previous work has demonstrated that the supraphysiologic shear stresses existing during CPB are sufficient to induce proinflammatory behavior in non-adherent monocytes. The interactions between shear stimulated monocytes and vascular endothelial cells have not been well studied and have important translational implications. With these studies, we tested the hypothesis that non-physiological shear stress experienced by monocytes during CPB affects the integrity and function of the endothelial monolayer.

Methods: We have used an in vitro CPB model to study the interaction between THP-1 monocyte-like cells and human neonatal dermal microvascular endothelial cells (HNDMVECs). THP-1 cells were sheared in polyvinyl chloride (PVC) tubing at 2.1 Pa, twice of the physiological shear stress, for 2 h. ELISA, adhesion and transmigration assays, qPCR, and RNA silencing were used to assess the interactions between THP-1 cells and HNDMVECs were characterized after co-culture.

Results: We found that sheared THP-1 cells adhered to and transmigrated through the HNDMVEC monolayer more readily than static THP-1 controls. Sheared THP-1 cells disrupted the VE-cadherin and led to the reorganization of cytoskeletal F-actin of HNDMVECs. A higher level of IL-8 was detected in the sheared THP-1 and HNDMVEC co-culture medium compared to the static THP-1 and HNDMVEC medium. Further, treating HNDMVECs with IL-8 resulted in increased adherence of non-sheared THP-1 cells, and upregulation in HNDMVECs of vascular cell adhesion molecule 1 (VCAM-1) and intercellular adhesion molecule 1 (ICAM-1). Finally, inhibition of HNDMVECs CXCR2/IL-8 receptor with Reparixin and of IL-8 expression with siRNA blocked sheared THP-1 cell adhesion to the endothelial monolayer.

Conclusions: These results suggest that CPB-like sheared monocytes promote IL-8 production followed by increased endothelium permeability, and monocyte adhesion and transmigration. This study revealed a novel mechanism of post-CPB inflammation and will contribute to the development of targeted therapeutics to prevent and repair the damage to neonatal patients.

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体外循环剪切后单核细胞黏附和内皮转运是由IL-8信号介导的。

导读：体外循环（CPB）的使用可引起无菌全身性炎症，导致发病率和死亡率，特别是儿童。患者在CPB期间和之后发现细胞因子表达和白细胞迁移增加。先前的研究表明，CPB过程中存在的超生理剪切应力足以诱导非粘附单核细胞的促炎行为。剪切刺激单核细胞和血管内皮细胞之间的相互作用尚未得到很好的研究，并具有重要的翻译意义。通过这些研究，我们验证了CPB过程中单核细胞所经历的非生理性剪切应力会影响内皮单层的完整性和功能的假设。方法：采用体外CPB模型，研究THP-1单核细胞样细胞与新生儿真皮微血管内皮细胞（HNDMVECs）的相互作用。将THP-1细胞置于聚氯乙烯（PVC）管中，在2.1 Pa（生理剪切应力的两倍）下剪切2 h。采用ELISA、黏附和转运、qPCR和RNA沉默等方法评估THP-1细胞与HNDMVECs共培养后的相互作用。结果：我们发现剪切的THP-1细胞比静态THP-1对照更容易粘附和通过HNDMVEC单层。被剪切的THP-1细胞破坏了ve -钙粘蛋白，导致HNDMVECs细胞骨架f -肌动蛋白重组。与静态THP-1和HNDMVEC共培养培养基相比，剪切THP-1和HNDMVEC共培养培养基中检测到更高水平的IL-8。此外，用IL-8处理HNDMVECs可增加未剪切THP-1细胞的粘附性，并上调HNDMVECs血管细胞粘附分子1 （VCAM-1）和细胞间粘附分子1 （ICAM-1）。最后，用修复素抑制HNDMVECs CXCR2/IL-8受体，用siRNA抑制IL-8表达，阻断了THP-1细胞与内皮单层的粘附。结论：cpb样剪切单核细胞促进IL-8的产生，内皮通透性增加，单核细胞粘附和迁移增加。该研究揭示了cpb后炎症的新机制，并将有助于开发靶向治疗方法来预防和修复新生儿患者的损伤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cardiovascular Medicine Medicine-Cardiology and Cardiovascular Medicine

CiteScore

3.80

自引率

11.10%

发文量

3529

审稿时长

14 weeks

期刊介绍： Frontiers? Which frontiers? Where exactly are the frontiers of cardiovascular medicine? And who should be defining these frontiers? At Frontiers in Cardiovascular Medicine we believe it is worth being curious to foresee and explore beyond the current frontiers. In other words, we would like, through the articles published by our community journal Frontiers in Cardiovascular Medicine, to anticipate the future of cardiovascular medicine, and thus better prevent cardiovascular disorders and improve therapeutic options and outcomes of our patients.