雪貂肺移植模型中,慢性移植物肺功能障碍的限制型和阻塞型之间存在不同的淋巴聚集形态。
Ferret Lung Transplantation Models Differential Lymphoid Aggregate Morphology Between Restrictive and Obstructive Forms of Chronic Lung Allograft Dysfunction.
机构信息
Department of Surgery, Carver College of Medicine, University of Iowa, Iowa City, IA.
Department of Anatomy and Cell Biology, Carver College of Medicine, University of Iowa, Iowa City, IA.
出版信息
Transplantation. 2022 Oct 1;106(10):1974-1989. doi: 10.1097/TP.0000000000004148. Epub 2022 Apr 15.
BACKGROUND
Long-term survival after lung transplantation remains limited by chronic lung allograft dysfunction (CLAD). CLAD has 2 histologic phenotypes, namely obliterative bronchiolitis (OB) and restrictive alveolar fibroelastosis (AFE), which have distinct clinical presentations, pathologies, and outcomes. Understanding of OB versus AFE pathogenesis would improve with better animal models.
METHODS
We utilized a ferret orthotopic single-lung transplantation model to characterize allograft fibrosis as a histologic measure of CLAD. Native lobes and "No CLAD" allografts lacking aberrant histology were used as controls. We used morphometric analysis to evaluate the size and abundance of B-cell aggregates and tertiary lymphoid organs (TLOs) and their cell composition. Quantitative RNA expression of 47 target genes was performed simultaneously using a custom QuantiGene Plex Assay.
RESULTS
Ferret lung allografts develop the full spectrum of human CLAD histology including OB and AFE subtypes. While both OB and AFE allografts developed TLOs, TLO size and number were greater with AFE histology. More activated germinal center cells marked by B-cell lymphoma 6 Transcription Repressor, (B-cell lymphoma 6) expression and fewer cells expressing forkhead box P3 correlated with AFE, congruent with greater diffuse immunoglobulin, plasma cell abundance, and complement 4d staining. Furthermore, forkhead box P3 RNA induction was significant in OB allografts specifically. RNA expression changes were seen in native lobes of animals with AFE but not OB when compared with No CLAD native lobes.
CONCLUSIONS
The orthotopic ferret single-lung transplant model provides unique opportunities to better understand factors that dispose allografts to OB versus AFE. This will help develop potential immunomodulatory therapies and antifibrotic approaches for lung transplant patients.
背景
肺移植后的长期存活率仍然受到慢性肺移植物功能障碍(CLAD)的限制。CLAD 有 2 种组织学表型,即闭塞性细支气管炎(OB)和限制性肺泡纤维弹性组织增生症(AFE),它们具有不同的临床表现、病理学和结果。对 OB 与 AFE 发病机制的理解将通过更好的动物模型得到改善。
方法
我们利用雪貂原位单肺移植模型,将同种异体移植纤维化作为 CLAD 的组织学指标进行研究。使用天然肺叶和缺乏异常组织学的“无 CLAD”同种异体移植作为对照。我们使用形态计量分析来评估 B 细胞聚集物和三级淋巴器官(TLO)的大小和丰度及其细胞组成。同时使用定制的 QuantiGene Plex 测定法进行 47 个靶基因的定量 RNA 表达。
结果
雪貂肺同种异体移植会发展出包括 OB 和 AFE 亚型在内的人类 CLAD 组织学的全貌。虽然 OB 和 AFE 同种异体移植都形成了 TLO,但 AFE 组织学的 TLO 大小和数量更多。更多的生发中心细胞表达 B 细胞淋巴瘤 6 转录抑制剂(B-cell lymphoma 6),表达叉头框 P3 的细胞较少,这与 AFE 相关,与弥漫性免疫球蛋白、浆细胞丰富度和补体 4d 染色相一致。此外,OB 同种异体移植中观察到叉头框 P3 RNA 诱导明显。与无 CLAD 天然肺叶相比,具有 AFE 但无 OB 的动物的天然肺叶中可见 RNA 表达变化。
结论
原位雪貂单肺移植模型为更好地理解导致同种异体移植易患 OB 与 AFE 的因素提供了独特的机会。这将有助于为肺移植患者开发潜在的免疫调节治疗和抗纤维化方法。
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