开发一种可扩展的方法来分离干细胞衍生的胰岛细胞亚群。

Development of a scalable method to isolate subsets of stem cell-derived pancreatic islet cells.

机构信息

Diabetes Center, Department of Medicine, University of California, San Francisco, San Francisco, CA 94143, USA.

出版信息

Stem Cell Reports. 2022 Apr 12;17(4):979-992. doi: 10.1016/j.stemcr.2022.02.001. Epub 2022 Mar 3.

DOI:10.1016/j.stemcr.2022.02.001

PMID:35245441

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9023773/

Abstract

Cell replacement therapy using β cells derived from stem cells is a promising alternative to conventional diabetes treatment options. Although current differentiation methods produce glucose-responsive β cells, they can also yield populations of undesired endocrine progenitors and other proliferating cell types that might interfere with long-term islet function and safety of transplanted cells. Here, we describe the generation of an array of monoclonal antibodies against cell surface markers that selectively label stem cell-derived islet cells. A high-throughput screen identified promising candidates, including three clones that mark a high proportion of endocrine cells in differentiated cultures. A scalable magnetic sorting method was developed to enrich for human pluripotent stem cell (hPSC)-derived islet cells using these three antibodies, leading to the formation of islet-like clusters with improved glucose-stimulated insulin secretion and reduced growth upon transplantation. This strategy should facilitate large-scale production of functional islet clusters from stem cells for disease modeling and cell replacement therapy.

摘要

使用干细胞衍生的β细胞进行细胞替代治疗是传统糖尿病治疗方法的一种有前途的替代方法。尽管目前的分化方法可产生对葡萄糖有反应的β细胞，但它们也可能产生不期望的内分泌祖细胞和其他增殖细胞类型，这可能会干扰胰岛的长期功能和移植细胞的安全性。在这里，我们描述了一系列针对细胞表面标记物的单克隆抗体的产生，这些抗体可选择性标记干细胞衍生的胰岛细胞。高通量筛选确定了有前途的候选物，包括三种在分化培养中标记高比例内分泌细胞的克隆。开发了一种可扩展的磁性分选方法，使用这三种抗体从人多能干细胞（hPSC）中富集胰岛细胞，从而形成具有改善的葡萄糖刺激胰岛素分泌和移植后生长减少的胰岛样簇。这种策略应该有助于从干细胞中大规模生产功能性胰岛簇，用于疾病建模和细胞替代治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/45a2/9023773/023fac8049d9/fx1.jpg

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开发一种可扩展的方法来分离干细胞衍生的胰岛细胞亚群。

Development of a scalable method to isolate subsets of stem cell-derived pancreatic islet cells.

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