A Century-long Journey From the Discovery of Insulin to the Implantation of Stem Cell-derived Islets.

IF 22 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Adam Ramzy, Paul J Belmonte, Mitchell J S Braam, Shogo Ida, Emily M Wilts, Megan K Levings, Alireza Rezania, Timothy J Kieffer
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引用次数: 12

Abstract

For the past century, insulin injections have saved millions of lives, but glycemic instability is still a persistent challenge for people with diabetes, leading to tremendous morbidity and premature mortality. Research in the field of islet transplantation has demonstrated that replacing insulin-producing β cells can restore euglycemia comparable to individuals without diabetes. However, a short supply of cadaveric islet donors, the technically challenging process of isolating islets, and the requirement for chronic immune suppression have impeded widespread clinical adoption. Rather than relying on cadaveric cells, pluripotent stem cells could serve as a virtually unlimited supply of insulin-producing β cells. Protocols have been developed that mimic the normal in vivo development of the human pancreas to generate pancreatic progenitor cells in vitro. Ongoing investigations have yielded progressively more mature β-like cells in vitro that produce insulin but do not yet fully mimic healthy mature β cells. Alongside development of differentiation protocols, other work has provided insight into potential implantation sites for stem cell-derived islet cells including the subcutaneous space, portal vein, and omentum. To optimize implanted cell survival and function, development of immune modulation therapies is ongoing, including selection of immunomodulatory medications and genetic modification of implanted cells to evade immune responses. Further, macroencapsulation or microencapsulation devices could be used to contain and/or immunoprotect implanted cells from the immune response including by using 3-dimensional bioprinting to facilitate the process. Remarkably, ongoing clinical trials have now yielded the first patient relying on differentiated stem cells rather than syringes as their insulin replacement therapy.

从胰岛素的发现到干细胞胰岛移植的百年历程。
在过去的一个世纪里,胰岛素注射挽救了数百万人的生命,但血糖不稳定仍然是糖尿病患者的一个持续挑战,导致了巨大的发病率和过早死亡。胰岛移植领域的研究表明,替代产生胰岛素的β细胞可以恢复与非糖尿病患者相当的正常血糖。然而,由于尸体胰岛供体的短缺、分离胰岛的技术挑战以及对慢性免疫抑制的要求,阻碍了该技术在临床的广泛应用。多能干细胞不依赖于尸体细胞,它可以作为几乎无限供应的胰岛素生成β细胞。已经开发了模拟人类胰腺正常体内发育的方案,以在体外产生胰腺祖细胞。正在进行的研究已经在体外产生了越来越成熟的β样细胞,这些细胞可以产生胰岛素,但还不能完全模仿健康的成熟β细胞。随着分化方案的发展,其他工作已经深入了解了干细胞来源的胰岛细胞的潜在植入部位,包括皮下间隙、门静脉和网膜。为了优化移植细胞的存活和功能,免疫调节疗法的发展正在进行中,包括免疫调节药物的选择和移植细胞的遗传修饰以逃避免疫反应。此外,大胶囊化或微胶囊化装置可用于包含和/或免疫保护植入细胞免受免疫反应,包括通过使用三维生物打印来促进该过程。值得注意的是,正在进行的临床试验现在已经产生了第一个依靠分化干细胞而不是注射器作为胰岛素替代疗法的患者。
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来源期刊
Endocrine reviews
Endocrine reviews 医学-内分泌学与代谢
CiteScore
42.00
自引率
1.00%
发文量
29
期刊介绍: Endocrine Reviews, published bimonthly, features concise timely reviews updating key mechanistic and clinical concepts, alongside comprehensive, authoritative articles covering both experimental and clinical endocrinology themes. The journal considers topics informing clinical practice based on emerging and established evidence from clinical research. It also reviews advances in endocrine science stemming from studies in cell biology, immunology, pharmacology, genetics, molecular biology, neuroscience, reproductive medicine, and pediatric endocrinology.
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