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部分去细胞化可消除气管同种异体移植物的免疫原性。

Partial decellularization eliminates immunogenicity in tracheal allografts.

作者信息

Tan Zheng Hong, Liu Lumei, Dharmadhikari Sayali, Shontz Kimberly M, Kreber Lily, Sperber Sarah, Yu Jane, Byun Woo Yul, Nyirjesy Sarah C, Manning Amy, Reynolds Susan D, Chiang Tendy

机构信息

Center of Regenerative Medicine, Abigail Wexner Research Institute, Nationwide Children's Hospital Columbus Ohio USA.

College of Medicine, The Ohio State University Columbus Ohio USA.

出版信息

Bioeng Transl Med. 2023 Apr 21;8(5):e10525. doi: 10.1002/btm2.10525. eCollection 2023 Sep.

DOI:10.1002/btm2.10525
PMID:37693070
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10487308/
Abstract

There is currently no suitable autologous tissue to bridge large tracheal defects. As a result, no standard of care exists for long-segment tracheal reconstruction. Tissue engineering has the potential to create a scaffold from allografts or xenografts that can support neotissue regeneration identical to the native trachea. Recent advances in tissue engineering have led to the idea of partial decellularization that allows for the creation of tracheal scaffolds that supports tracheal epithelial formation while preserving mechanical properties. However, the ability of partial decellularization to eliminate graft immunogenicity remains unknown, and understanding the immunogenic properties of partially decellularized tracheal grafts (PDTG) is a critical step toward clinical translation. Here, we determined that tracheal allograft immunogenicity results in epithelial cell sloughing and replacement with dysplastic columnar epithelium and that partial decellularization creates grafts that are able to support an epithelium without histologic signs of rejection. Moreover, allograft implantation elicits CD8+ T-cell infiltration, a mediator of rejection, while PDTG did not. Hence, we establish that partial decellularization eliminates allograft immunogenicity while creating a scaffold for implantation that can support spatially appropriate airway regeneration.

摘要

目前尚无合适的自体组织来桥接大的气管缺损。因此,对于长节段气管重建不存在标准的治疗方法。组织工程有潜力利用同种异体移植物或异种移植物制造一种支架,该支架能够支持与天然气管相同的新组织再生。组织工程的最新进展催生了部分脱细胞化的理念,这使得制造出能够支持气管上皮形成同时保留机械性能的气管支架成为可能。然而,部分脱细胞化消除移植物免疫原性的能力仍不明确,而了解部分脱细胞化气管移植物(PDTG)的免疫原性特性是迈向临床转化的关键一步。在此,我们确定气管同种异体移植物的免疫原性会导致上皮细胞脱落,代之以发育异常的柱状上皮,且部分脱细胞化可制造出能够支持上皮组织且无组织学排斥迹象的移植物。此外,同种异体移植物植入会引发作为排斥反应介质的CD8 + T细胞浸润,而PDTG则不会。因此,我们证实部分脱细胞化消除了同种异体移植物的免疫原性,同时制造出了一种可用于植入的支架,该支架能够支持空间上合适的气道再生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b8f3/10487308/f7e6fbad3676/BTM2-8-e10525-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b8f3/10487308/92af4c5ecde6/BTM2-8-e10525-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b8f3/10487308/f7e6fbad3676/BTM2-8-e10525-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b8f3/10487308/92af4c5ecde6/BTM2-8-e10525-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b8f3/10487308/f7e6fbad3676/BTM2-8-e10525-g001.jpg

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