Human pluripotent stem cell-derived organoids repair damaged bowel in vivo

IF 19.8 1区医学 Q1 CELL & TISSUE ENGINEERING

Cell stem cell Pub Date : 2024-09-12 DOI:10.1016/j.stem.2024.08.009

Holly M. Poling, Nambirajan Sundaram, Garrett W. Fisher, Akaljot Singh, Joseph R. Shiley, Kalpana Nattamai, Vinothini Govindarajah, Alexander R. Cortez, Maksym O. Krutko, Séverine Ménoret, Ignacio Anegon, Magdalena Kasendra, James M. Wells, Christopher N. Mayhew, Takanori Takebe, Maxime M. Mahe, Michael A. Helmrath

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Abstract

The fundamental goal of tissue engineering is to functionally restore or improve damaged tissues or organs. Here we address this in the small bowel using an in vivo xenograft preclinical acute damage model. We investigated the therapeutic capacity of human intestinal organoids (HIOs), which are generated from human pluripotent stem cells (hPSCs), to repair damaged small bowel. We hypothesized that the HIO’s cellular complexity would allow it to sustain transmural engraftment. To test this, we developed a rodent injury model where, through luminal delivery, we demonstrated that fragmented HIOs engraft, proliferate, and persist throughout the bowel following repair. Not only was restitution of the mucosal layer observed, but significant incorporation was also observed in the muscularis and vascular endothelium. Further analysis characterized sustained cell type presence within the regenerated regions, retention of proximal regionalization, and the neo-epithelia’s function. These findings demonstrate the therapeutic importance of mesenchyme for intestinal injury repair.

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源于人多能干细胞的器官组织在体内修复受损肠道

组织工程学的基本目标是恢复或改善受损组织或器官的功能。在这里，我们利用体内异种移植临床前急性损伤模型来解决小肠的这一问题。我们研究了由人类多能干细胞（hPSCs）生成的人类肠道器官组织（HIOs）修复受损小肠的治疗能力。我们假设，HIO的细胞复杂性将使其能够维持跨膜移植。为了验证这一假设，我们建立了一个啮齿动物损伤模型，通过管腔输送，我们证明了破碎的HIO在修复后可在整个肠道内参与、增殖和存活。我们不仅观察到了粘膜层的恢复，还观察到了肌层和血管内皮的显著融合。进一步分析显示，再生区域内的细胞类型持续存在，近端区域化得以保留，新上皮细胞的功能得以发挥。这些发现证明了间充质对肠道损伤修复的重要治疗作用。

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

Cell stem cell 生物-细胞生物学

CiteScore

37.10

自引率

2.50%

发文量

151

审稿时长

42 days

期刊介绍： Cell Stem Cell is a comprehensive journal covering the entire spectrum of stem cell biology. It encompasses various topics, including embryonic stem cells, pluripotency, germline stem cells, tissue-specific stem cells, differentiation, epigenetics, genomics, cancer stem cells, stem cell niches, disease models, nuclear transfer technology, bioengineering, drug discovery, in vivo imaging, therapeutic applications, regenerative medicine, clinical insights, research policies, ethical considerations, and technical innovations. The journal welcomes studies from any model system providing insights into stem cell biology, with a focus on human stem cells. It publishes research reports of significant importance, along with review and analysis articles covering diverse aspects of stem cell research.