Increased human complement pathway regulatory protein gene dose is associated with increased endothelial expression and prolonged survival during ex-vivo perfusion of GTKO pig lungs with human blood.

IF 3.3 4区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Xenotransplantation Pub Date : 2023-07-01 Epub Date: 2023-07-28 DOI:10.1111/xen.12812

Ryan Chaban, Gannon McGrath, Zahra Habibabady, Ivy Rosales, Lars Burdorf, David L Ayares, Elana Rybak, Tianshu Zhang, Donald G Harris, Siamak Dahi, Franchesca Ali, Dawn M Parsell, Gheorghe Braileanu, Xiangfei Cheng, Evelyn Sievert, Carol Phelps, Agnes M Azimzadeh, Richard N Pierson

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Abstract

Introduction: Expression of human complement pathway regulatory proteins (hCPRP's) such as CD46 or CD55 has been associated with improved survival of pig organ xenografts in multiple different models. Here we evaluate the hypothesis that an increased human CD46 gene dose, through homozygosity or additional expression of a second hCPRP, is associated with increased protein expression and with improved protection from injury when GTKO lung xenografts are perfused with human blood.

Methods: Twenty three GTKO lungs heterozygous for human CD46 (GTKO.heteroCD46), 10 lungs homozygous for hCD46 (GTKO.homoCD46), and six GTKO.homoCD46 lungs also heterozygous for hCD55 (GTKO.homoCD46.hCD55) were perfused with human blood for up to 4 h in an ex vivo circuit.

Results: Relative to GTKO.heteroCD46 (152 min, range 5-240; 6/23 surviving at 4 h), survival was significantly improved for GTKO.homoCD46 (>240 min, range 45-240, p = .034; 7/10 surviving at 4 h) or GTKO.homoCD46.hCD55 lungs (>240 min, p = .001; 6/6 surviving at 4 h). Homozygosity was associated with increased capillary expression of hCD46 (p < .0001). Increased hCD46 expression was associated with significantly prolonged lung survival (p = .048),) but surprisingly not with reduction in measured complement factor C3a. Hematocrit, monocyte count, and pulmonary vascular resistance were not significantly altered in association with increased hCD46 gene dose or protein expression.

Conclusion: Genetic engineering approaches designed to augment hCPRP activity - increasing the expression of hCD46 through homozygosity or co-expressing hCD55 with hCD46 - were associated with prolonged GTKO lung xenograft survival. Increased expression of hCD46 was associated with reduced coagulation cascade activation, but did not further reduce complement activation relative to lungs with relatively low CD46 expression. We conclude that coagulation pathway dysregulation contributes to injury in GTKO pig lung xenografts perfused with human blood, and that the survival advantage for lungs with increased hCPRP expression is likely attributable to improved endothelial thromboregulation.

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在用人血体外灌注GTKO猪肺期间，人补体途径调节蛋白基因剂量的增加与内皮表达的增加和生存期的延长有关。

引言：在多种不同的模型中，人补体途径调节蛋白（hCPRP）如CD46或CD55的表达与猪器官异种移植物的存活率提高有关。在这里，我们评估了这样一种假设，即当用人血灌注GTKO肺异种移植物时，通过第二个hCPRP的纯合性或额外表达，增加的人CD46基因剂量与增加的蛋白质表达和改善的损伤保护有关。方法：将23只人CD46杂合的GTKO肺（GTKO.heoCD46）、10只人CD4 6纯合的GTKO.homoCD46肺（GTKO.heoCD46.hCD55）和6只同样杂合的人CD55（GTKO.homoCD46.hCD 55）在离体回路中用人血灌注长达4小时。结果：与GTKO.heteroCD46（152分钟，范围5-240；6/23在4小时存活）相比，GTKO.homoCD46（>240分钟，范围45-240，p=.034；7/10在4小时生存）或GTKO.homeCD46.hCD55肺（>240分，p=.001；6/6在4小时幸存）的存活率显著提高。纯合性与hCD46毛细血管表达增加有关（p结论：旨在增强hCPRP活性的基因工程方法——通过纯合性或与hCD46共表达hCD55来增加hCD46的表达——与GTKO肺异种移植物的存活期延长有关。hCD46表达的增加与凝血级联激活的减少有关，但与肺相比，并没有进一步减少补体激活CD46表达相对较低。我们的结论是，凝血途径失调导致了用人血灌注的GTKO猪肺异种移植物的损伤，并且hCPRP表达增加的肺的生存优势可能归因于内皮血栓调节的改善。

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

Xenotransplantation 医学-医学：研究与实验

CiteScore

6.80

自引率

15.40%

发文量

审稿时长

>12 weeks

期刊介绍： Xenotransplantation provides its readership with rapid communication of new findings in the field of organ and tissue transplantation across species barriers.The journal is not only of interest to those whose primary area is xenotransplantation, but also to veterinarians, microbiologists and geneticists. It also investigates and reports on the controversial theological, ethical, legal and psychological implications of xenotransplantation.