A saponin from astragalus promotes pancreatic ductal organoids differentiation into insulin-producing cells

祖细胞 生物 移植 干细胞 胰岛素 细胞生物学 肠内分泌细胞 内科学 细胞分化 内分泌学 内分泌系统 医学 生物化学 激素 基因
作者
Wen Yu,Yannan Wang,Di Jiang,Shang Jie,Miao Liu,Thomas Efferth,Chun‐Bo Teng
出处
期刊:Phytomedicine [Elsevier BV]
卷期号:102: 154190-154190 被引量:11
标识
DOI:10.1016/j.phymed.2022.154190
摘要

Islet transplantation is an effective treatment for the type 1 and severe type 2 diabetes, but it is restricted by the severe lack of pancreas donors. In vitro differentiation of pancreatic progenitors into insulin-secreting cells is one of the hopeful strategies in the cell transplantation therapy of diabetes. Isoastragaloside I is one of the saponin molecules found in Astragalus membranaceus, which has been demonstrated to alleviate insulin resistance and glucose intolerance in obese mice.We established mouse pancreatic ductal organoids (mPDOs) with progenitor characteristics and an insulin promoter-driven EGFP reporter system to screen astragalus saponin components for monomers that can promote insulin-producing cell differentiation.mPDOs treated with or without astragalus saponin monomers were investigated by the insulin promoter-driven EGFP reporter, quantitative PCR, immunofluorescence and flow cytometry to evaluate the expression of endocrine progenitor and β-cell markers.Isoastragaloside I significantly promoted the expression of β-cell differentiation genes, which was demonstrated by the activation of the insulin promoter-driven EGFP reporter, as well as the significant increase of mRNA levels of the endocrine progenitor marker Ngn3 and the β-cell markers insulin1 and insulin2. Immunostaining studies indicated that the β-cell-specific C-peptide was upregulated in isoastragaloside I-treated mPDOs. FACS analysis revealed that the ratio of C-peptide-secreting cells in isoastragaloside I-treated mPDOs was over 40%. Glucose tolerance tests demonstrated that the differentiated mPDOs could secrete C-peptide in response to glucose stimulation.We discover a novel strategy of inducing pancreatic ductal progenitors to differentiate into insulin-producing cells using isoastragaloside I. This approach can be potentially applied to β-cell transplantation in diabetes therapies.
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