Endothelial Cell Replacement of Human Veins, Modeling Vascular Repair and Endothelial Cell Chimerism.

Stem cells and development Pub Date : 2024-01-01 Epub Date: 2023-12-27 DOI:10.1089/scd.2023.0142
Hector Tejeda-Mora, Yvette den Hartog, Ivo J Schurink, Monique M A Verstegen, Jeroen de Jonge, Martijn W F van den Hoogen, Carla C Baan, Robert C Minnee, Martin J Hoogduijn, Luc J W van der Laan, Jorke Willemse
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Abstract

Allogeneic transplant organs are potentially highly immunogenic. The endothelial cells (ECs) located within the vascular system serve as the primary interface between the recipient's immune system and the donor organ, playing a key role in the alloimmune response. In this study, we investigated the potential use of recipient-derived ECs in a vein recellularization model. In this study, human iliac veins underwent complete decellularization using a Triton X-100 protocol. We demonstrated the feasibility of re-endothelializing acellular blood vessels using either human umbilical cord vein endothelial cell or human venous-derived ECs, with this re- endothelialization being sustainable for up to 28 days in vitro. The re-endothelialized veins exhibited the restoration of vascular barrier function, along with the restoration of innate immunoregulatory capabilities, evident through the facilitation of monocytic cell transmigration and their polarization toward a macrophage phenotype following transendothelial extravasation. Finally, we explored whether recellularization with EC of a different donor could prevent antibody-mediated rejection. We demonstrated that in chimeric vessels, allogeneic EC became a target of the humoral anti-donor response after activation of the classical immune complement pathway whereas autologous EC were spared, emphasizing their potential utility before transplantation. In conclusion, our study demonstrates that replacement of EC in transplants could reduce the immunological challenges associated with allogeneic grafts.

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人静脉内皮细胞替代、血管修复模型及内皮细胞嵌合。
同种异体移植器官具有潜在的高度免疫基因性。内皮细胞(EC)位于血管系统内,是受体免疫系统和供体器官之间的主要接口,在同种异体免疫应答中起着关键作用。在这项研究中,我们研究了受体来源的内皮细胞在静脉再细胞化模型中的潜在用途。在这里,使用triton X-100方案,人髂静脉进行了完全的去细胞化。我们证明了使用HUVEC或人静脉来源的内皮细胞对非细胞血管进行再内皮化的可行性,这种再内皮化在体外可持续长达28天。再内皮化静脉表现出血管屏障功能的恢复,以及先天免疫调节能力的恢复,这可以通过单核细胞迁移的促进以及它们在跨内皮外渗后向巨噬细胞表型的极化来证明。最后,我们探讨了不同供体EC的再细胞化是否可以预防抗体介导的排斥反应。我们证明,在嵌合血管中,在激活经典免疫补体途径后,异体EC成为体液抗供体反应的靶标,而自体EC则不受影响,强调了它们在移植前的潜在效用。总之,我们的研究表明,移植中EC的替代可以减少与同种异体移植物相关的免疫挑战。
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