人胚胎干细胞来源的被囊胰腺祖细胞治疗胰岛素依赖型糖尿病。

Encapsulated pancreatic progenitors derived from human embryonic stem cells as a therapy for insulin-dependent diabetes.

机构信息

Australia Diabetes Therapy Project, Biomaterials, CSIRO Materials Science and Engineering Research Laboratories, Sydney and Melbourne, Australia.

出版信息

Diabetes Metab Res Rev. 2011 Nov;27(8):928-32. doi: 10.1002/dmrr.1274.

DOI:10.1002/dmrr.1274

PMID:22069287

Abstract

BACKGROUND

Cellular-based therapies for insulin-dependent diabetes are potential means of achieving and maintaining normal blood glucose levels (BGL) without the need for insulin administration. Islets isolated from donor pancreases have been the most common tissue used to date, but supply is a limiting factor. The use of human embryonic stem cells (hESC) as a therapy became a possibility with the report that these cells could be differentiated to pancreatic progenitors (PP) over 12 days in vitro. Conversion of PP to glucose-responsive insulin-secreting cells can be achieved by transplanting the progenitors in vivo where cell maturation occurs. To date this step has not been shown under in vitro conditions.

METHODS

Prior to transplanting, cells are encapsulated in alginate to prevent the immune cells of recipient attacking the graft. The alginate capsules have pores with a molecular weight cut-off of 250 kDa. These are too small to allow entry of immune cells, but large enough for passage of nutrients and insulin.

RESULTS

Encapsulated insulin-producing cells survive and function when transplanted, and have been shown to normalize BGL when allografted into diabetic mice. As few as 750 encapsulated human islets are sufficient to normalize BGL of diabetic non-obese diabetic severe combined immunodeficient (NOD/SCID) recipient mice for at least 2 months. The safety of transplanting encapsulated human islets as demonstrated by the lack of major adverse events and infection was recently shown in a first-in-human clinical trial. Finally, fetal porcine islet-like cell clusters, which are akin to PP derived from ESC, mature and normalize BGL of diabetic recipient mice with the same efficiency as non-encapsulated clusters placed under the kidney capsule.

CONCLUSION

Transplanting encapsulated PP, derived from hESCs, into diabetic recipients is the strategy that is now being explored in the Australia Diabetes Therapy Project.

摘要

背景

基于细胞的胰岛素依赖型糖尿病疗法是一种实现和维持正常血糖水平（BGL）的潜在手段，而无需进行胰岛素注射。迄今为止，从供体胰腺中分离出的胰岛一直是最常用的组织，但供应量是一个限制因素。随着报告称这些细胞在体外 12 天内可分化为胰腺祖细胞（PP），人类胚胎干细胞（hESC）作为一种疗法成为可能。通过将祖细胞移植到体内，使其发生细胞成熟，可将 PP 转化为对葡萄糖有反应的胰岛素分泌细胞。迄今为止，在体外条件下尚未证明这一步骤。

方法

在移植前，细胞被包裹在藻酸盐中，以防止受体的免疫细胞攻击移植物。藻酸盐胶囊的孔径为 250 kDa，分子量截止值。这些孔径太小，无法让免疫细胞进入，但足以让营养物质和胰岛素通过。

结果

当移植时，包封的产生胰岛素的细胞得以存活并发挥作用，并且当异体移植到糖尿病小鼠中时，已显示可使 BGL 正常化。少至 750 个包封的人胰岛足以使非肥胖型糖尿病严重联合免疫缺陷（NOD/SCID）受体小鼠的糖尿病 BGL 正常化至少 2 个月。最近在首次人体临床试验中证明，移植包封的人胰岛是安全的，没有发生重大不良事件和感染。最后，胎儿猪胰岛样细胞簇类似于 ESC 衍生的 PP，其成熟并使糖尿病受体小鼠的 BGL 正常化的效率与置于肾囊下的未包封簇相同。

结论

将源自 hESC 的包封的 PP 移植到糖尿病受者中是澳大利亚糖尿病治疗计划目前正在探索的策略。

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人胚胎干细胞来源的被囊胰腺祖细胞治疗胰岛素依赖型糖尿病。

Encapsulated pancreatic progenitors derived from human embryonic stem cells as a therapy for insulin-dependent diabetes.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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