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Generation and long-term expansion of human pancreatic islet organoids in vitro

Song, W.; Liu, C.; Wang, S.; Wang, D.; Xu, Y.; Yuan, S.; Chang, J.; Zhang, B.; Han, X.; Fu, H.; Bao, H.; Shan, A.; Zheng, D.; Wang, W.; Cao, Y.; Gu, W.; Wang, J.; Liu, L.; Song, S.; Yu, Q. C.; Zeng, Y. A.

2026-04-20 cell biology
10.64898/2026.04.15.718643 bioRxiv
Show abstract

The scarcity of expandable, functional human islet cells remains a major barrier to diabetes therapy. Here, we identify PROCR+ cells within adult human islets and establish a defined culture system to generate pancreatic islet organoids. These organoids self-organize into -, {beta}-, {delta}-, and PP cells at near-native ratios, exhibit regulated insulin and glucagon secretion, and support exponential in vitro expansion. Single-cell transcriptomics reveals a unique progenitor-like cell population that is transcriptionally primed for endocrine differentiation but shares molecular features with fetal trunk cells and endocrine progenitors. When transplanted, the organoids rapidly ameliorate hyperglycemia in diabetic mice. Importantly, in a non-human primate model, intraportal transplantation of these organoids reduced exogenous insulin requirements, restored glucose-stimulated C-peptide secretion, and achieved sustained glycemic control-representing a critical step toward clinical translation. This study provides a strategy for expanding human islet organoids, offering a scalable platform for diabetes treatment, disease modeling, and regenerative medicine.

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