Genetic modifications designed for xenotransplantation attenuate sialoadhesin-dependent binding of human erythrocytes to porcine macrophages.

IF 3.3 4区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL
Xenotransplantation Pub Date : 2022-11-01 Epub Date: 2022-09-20 DOI:10.1111/xen.12780
Kaitlyn Petitpas, Zahra Habibabady, Veronica Ritchie, Margaret R Connolly, Lars Burdorf, Wenning Qin, Yinan Kan, Jacob V Layer, Juliet N Crabtree, Michele E Youd, William F Westlin, Diogo M Magnani, Richard N Pierson, Agnes M Azimzadeh
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引用次数: 1

Abstract

The phenomenon of diminishing hematocrit after in vivo liver and lung xenotransplantation and during ex vivo liver xenoperfusion has largely been attributed to action by resident liver porcine macrophages, which bind and destroy human erythrocytes. Porcine sialoadhesin (siglec-1) was implicated previously in this interaction. This study examines the effect of porcine genetic modifications, including knockout of the CMAH gene responsible for expression of Neu5Gc sialic acid, on the adhesion of human red blood cells (RBCs) to porcine macrophages. Wild-type (WT) porcine macrophages and macrophages from several strains of genetically engineered pigs, including CMAH gene knockout and several human transgenes (TKO+hTg), were incubated with human RBCs and "rosettes" (≥3 erythrocytes bound to one macrophage) were quantified by microscopy. Our results show that TKO+hTg genetic modifications significantly reduced rosette formation. The monoclonal antibody 1F1, which blocks porcine sialoadhesin, significantly reduced rosette formation by WT and TKO+hTg macrophages compared with an isotype control antibody. Further, desialation of human RBCs with neuraminidase before addition to WT or TKO+hTg macrophages resulted in near-complete abrogation of rosette formation, to a level not significantly different from porcine RBC rosette formation on porcine macrophages. These observations are consistent with rosette formation being mediated by binding of sialic acid on human RBCs to sialoadhesin on porcine macrophages. In conclusion, the data predict that TKO+hTg genetic modifications, coupled with targeting of porcine sialoadhesin by the 1F1 mAb, will attenuate erythrocyte sequestration and anemia during ex vivo xenoperfusion and following in vivo liver, lung, and potentially other organ xenotransplantation.

为异种移植设计的基因修饰减弱了人红细胞与猪巨噬细胞的唾液粘附素依赖性结合。
在体内肝和肺异种移植后以及在离体肝异种灌注过程中,红细胞压积减少的现象在很大程度上归因于固有的肝-猪巨噬细胞的作用,其结合并破坏人类红细胞。猪唾液粘附素(siglec-1)先前与这种相互作用有关。本研究考察了猪基因修饰(包括敲除负责Neu5Gc唾液酸表达的CMAH基因)对人红细胞(RBCs)与猪巨噬细胞粘附的影响。野生型(WT)猪巨噬细胞和来自几种基因工程猪菌株的巨噬细胞,包括CMAH基因敲除和几种人类转基因(TKO+hTg),与人类红细胞孵育,并通过显微镜定量“玫瑰花结”(≥3个红细胞与一个巨噬细胞结合)。我们的结果表明,TKO+hTg基因修饰显著减少了玫瑰花结的形成。与同种型对照抗体相比,阻断猪唾液粘附素的单克隆抗体1F1显著减少了WT和TKO+hTg巨噬细胞的玫瑰花结形成。此外,在加入WT或TKO+hTg巨噬细胞之前,用神经氨酸酶去除人RBC导致玫瑰花结形成几乎完全消除,达到与猪巨噬细胞上的猪RBC玫瑰花结形成没有显著差异的水平。这些观察结果与人红细胞上的唾液酸与猪巨噬细胞上的唾液粘附素结合介导的玫瑰花结形成一致。总之,数据预测,TKO+hTg基因修饰,再加上1F1mAb靶向猪唾液粘附素,将在离体异种灌注期间以及体内肝、肺和潜在的其他器官异种移植后减轻红细胞固存和贫血。
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
Xenotransplantation 医学-医学:研究与实验
CiteScore
6.80
自引率
15.40%
发文量
58
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.
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