机械刺激诱导人组织工程管状泌尿生殖移植物中的尿路上皮分化。

Mechanical stimuli-induced urothelial differentiation in a human tissue-engineered tubular genitourinary graft.

机构信息

Centre LOEX de l'Université Laval, Génie tissulaire et régénération: LOEX - Centre de recherche FRSQ du Centre hospitalier affilié universitaire de Québec, Canada.

出版信息

Eur Urol. 2011 Dec;60(6):1291-8. doi: 10.1016/j.eururo.2011.05.051. Epub 2011 Jun 12.

DOI:10.1016/j.eururo.2011.05.051

PMID:21684066

Abstract

BACKGROUND

A challenge in urologic tissue engineering is to obtain well-differentiated urothelium to overcome the complications related to other sources of tissues used in ureteral and urethral substitution.

OBJECTIVE

We investigated the effects of in vitro mechanical stimuli on functional and morphologic properties of a human tissue-engineered tubular genitourinary graft (TTGG).

DESIGN, SETTING, AND PARTICIPANTS: Using the self-assembly technique, we developed a TTGG composed of human dermal fibroblasts and human urothelial cells without exogenous scaffolding. Eight substitutes were subjected to dynamic flow and hydrostatic pressure for up to 2 wk compared to static conditions (n=8).

MEASUREMENTS

Stratification and cell differentiation were assessed by histology, electron microscopy, immunostaining, and uroplakin gene expression. Barrier function was determined by permeation studies with carbon 14-urea.

RESULTS AND LIMITATIONS

Dynamic conditions showed well-established stratified urothelium and basement membrane formation, whereas no stratification was observed in static culture. The first signs of cell differentiation were perceived after 7 d of perfusion and were fully expressed at day 14. Superficial cells under perfusion displayed discoidal and fusiform vesicles and positive staining for uroplakin 2, cytokeratine 20, and tight junction protein ZO-1, similar to native urothelium. Mechanical stimuli induced expression of the major uroplakin transcripts, whereas expression was low or undetectable in static culture. Permeation studies showed that mechanical constraints significantly improved the barrier function compared to static conditions (p<0.01 at 14 d, p<0.05 at 7 d) and were comparable to native urothelium.

CONCLUSIONS

Mechanical stimuli induced in vitro terminal urothelium differentiation in a human genitourinary substitute displaying morphologic and functional properties equivalent to a native urologic conduit.

摘要

背景

在泌尿科组织工程学中，一个挑战是获得分化良好的尿路上皮，以克服使用其他组织来源替代输尿管和尿道时所涉及的并发症。

目的

我们研究了体外机械刺激对人组织工程管状泌尿生殖移植物（TTGG）的功能和形态特性的影响。

设计、地点和参与者：使用自组装技术，我们开发了一种由人真皮成纤维细胞和人尿路上皮细胞组成的 TTGG，没有外源性支架。8 个移植物与静态条件相比（n=8），分别在动态流和静水压力下处理长达 2 周。

测量

通过组织学、电子显微镜、免疫染色和 uroplakin 基因表达评估分层和细胞分化。通过放射性碳 14-尿素渗透研究确定屏障功能。

结果和局限性

动态条件下显示出成熟的分层尿路上皮和基底膜形成，而静态培养中则没有分层。灌注后第 7 天开始出现细胞分化的最初迹象，在第 14 天完全表达。灌注下的浅层细胞显示出盘状和梭形囊泡，并对 uroplakin 2、细胞角蛋白 20 和紧密连接蛋白 ZO-1 呈阳性染色，类似于天然尿路上皮。机械刺激诱导主要 uroplakin 转录本的表达，而在静态培养中表达水平较低或无法检测到。渗透研究表明，与静态条件相比，机械约束显著改善了屏障功能（第 14 天 p<0.01，第 7 天 p<0.05），与天然尿路上皮相当。

结论

体外机械刺激诱导人泌尿生殖移植物中的终末尿路上皮分化，表现出与天然泌尿科导管相当的形态和功能特性。

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机械刺激诱导人组织工程管状泌尿生殖移植物中的尿路上皮分化。

Mechanical stimuli-induced urothelial differentiation in a human tissue-engineered tubular genitourinary graft.

机构信息

出版信息

BACKGROUND

OBJECTIVE

MEASUREMENTS

RESULTS AND LIMITATIONS

CONCLUSIONS

背景

目的

测量

结果和局限性

结论

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