Comparative transcriptome analysis between long- and short-term survival after pig-to-monkey cardiac xenotransplantation reveals differential heart failure development.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-10-04 eCollection Date: 2023-01-01 DOI:10.1080/19768354.2023.2265150
Byeonghwi Lim, Min-Jae Jang, Seung-Mi Oh, Jin Gu No, Jungjae Lee, Sang Eun Kim, Sun A Ock, Ik Jin Yun, Junseok Kim, Hyun Keun Chee, Wan Seop Kim, Hee Jung Kang, Kahee Cho, Keon Bong Oh, Jun-Mo Kim
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引用次数: 0

Abstract

Cardiac xenotransplantation is the potential treatment for end-stage heart failure, but the allogenic organ supply needs to catch up to clinical demand. Therefore, genetically-modified porcine heart xenotransplantation could be a potential alternative. So far, pig-to-monkey heart xenografts have been studied using multi-transgenic pigs, indicating various survival periods. However, functional mechanisms based on survival period-related gene expression are unclear. This study aimed to identify the differential mechanisms between pig-to-monkey post-xenotransplantation long- and short-term survivals. Heterotopic abdominal transplantation was performed using a donor CD46-expressing GTKO pig and a recipient cynomolgus monkey. RNA-seq was performed using samples from POD60 XH from monkey and NH from age-matched pigs, D35 and D95. Gene-annotated DEGs for POD60 XH were compared with those for POD9 XH (Park et al. 2021). DEGs were identified by comparing gene expression levels in POD60 XH versus either D35 or D95 NH. 1,804 and 1,655 DEGs were identified in POD60 XH versus D35 NH and POD60 XH versus D95 NH, respectively. Overlapped 1,148 DEGs were annotated and compared with 1,348 DEGs for POD9 XH. Transcriptomic features for heart failure and inhibition of T cell activation were observed in both long (POD60)- and short (POD9)-term survived monkeys. Only short-term survived monkey showed heart remodeling and regeneration features, while long-term survived monkey indicated multi-organ failure by neural and hormonal signaling as well as suppression of B cell activation. Our results reveal differential heart failure development and survival at the transcriptome level and suggest candidate genes for specific signals to control adverse cardiac xenotransplantation effects.

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猪至猴异种心脏移植后长期和短期存活率的比较转录组分析揭示了心力衰竭发展的差异。
异种心脏移植是治疗终末期心力衰竭的潜在方法,但同种异体器官的供应需要满足临床需求。因此,转基因猪心脏异种移植可能是一种潜在的替代方案。到目前为止,已经使用多转基因猪对猪到猴子的心脏异种移植物进行了研究,表明了不同的生存期。然而,基于生存期相关基因表达的功能机制尚不清楚。本研究旨在确定猪与猴异种移植后长期和短期存活率之间的差异机制。使用表达CD46的供体GTKO猪和受体食蟹猴进行异位腹部移植。使用来自猴子的POD60-XH和来自年龄匹配的猪的NH、D35和D95的样品进行RNA-seq。将POD60 XH的基因注释DEG与POD9 XH的DEG进行比较(Park等人,2021)。通过比较POD60 XH与D35或D95 NH中的基因表达水平来鉴定DEG。在POD60 XH与D35 NH和POD60 XHTML与D95 NH中分别鉴定出1804和1655个DEG。对重叠的1148个DEG进行注释,并与POD9 XH的1348个DEG。在长期(POD60)和短期(POD9)存活的猴子中都观察到心力衰竭的转录组学特征和T细胞活化的抑制。只有短期存活的猴子表现出心脏重塑和再生的特征,而长期存活的猴子则通过神经和激素信号以及B细胞激活的抑制表现出多器官衰竭。我们的研究结果在转录组水平上揭示了心力衰竭的不同发展和存活率,并为控制异种心脏移植不良影响的特定信号提供了候选基因。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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