Islet organoid as a promising model for diabetes

Studies on diabetes have long been hampered by a lack of authentic disease models that, ideally, should be unlimited and able to recapitulate the abnormalities involved in the development, structure, and function of human pancreatic islets under pathological conditions. Stem cell-based islet organoids faithfully recapitulate islet development in vitro and provide large amounts of three-dimensional functional islet biomimetic materials with a morphological structure and cellular composition similar to those of native islets. Thus, islet organoids hold great promise for modeling islet development and function, deciphering the mechanisms underlying the onset of diabetes, providing an in vitro human organ model for infection of viruses such as SARS-CoV-2, and contributing to drug screening and autologous islet transplantation. However, the currently established islet organoids are generally immature compared with native islets, and further efforts should be made to improve the heterogeneity and functionality of islet organoids, making it an authentic and informative disease model for diabetes. Here, we review the advances and challenges in the generation of islet organoids, focusing on human pluripotent stem cell-derived islet organoids, and the potential applications of islet organoids as disease models and regenerative therapies for diabetes.

Research status and prospect of basic application of islet organoid / 器官移植

Organoids are tissue structures, generated from pluripotent stem cells and cultured in vitro, which form self-organize and recapitulate tissues with similar structure and function to the original organs. Organoids have similar appearance and function to the original tissues, and have been widely applied in basic research and clinical trial. At present, the organoids of liver, kidney, islet, brain, intestine and other organs have been successfully cultivated. The use of islet organoid is a hotspot in the field of organoid research. However, islet organoid is currently applied in basic research because rejection after organ transplantation and other issues remain unresolved. In this article, the origin, development and basic application of islet organoid were reviewed, aiming to provide reference for the transformation from basic research of islet organoid into clinical application as well as the treatment of diabetes mellitus.