肝细胞生长因子共封装的异种胰岛无血管化原位皮下移植
Prevascularization-free Primary Subcutaneous Transplantation of Xenogeneic Islets Coencapsulated With Hepatocyte Growth Factor.
作者信息
Yang Sin-Yu, Yang Kai-Chiang, Sumi Shoichiro
机构信息
Laboratory of Organ and Tissue Reconstruction, Institute for Frontier Life and Medical Sciences, Kyoto University, Kyoto, Japan.
School of Dental Technology, College of Oral Medicine, Taipei Medical University, Taipei, Taiwan.
出版信息
Transplant Direct. 2020 Oct 23;6(11):e620. doi: 10.1097/TXD.0000000000001078. eCollection 2020 Nov.
UNLABELLED
Subcutaneous pouch is a potential site for islet transplantation. However, insufficient oxygen supply remains challenging. Pretreatment of neovascularization using basic fibroblast growth factor can solve this, but it needs 2× operations. We developed a device that contains rat islets in chitosan gel packed in a bag made of highly biocompatible ethylene vinyl alcohol copolymer porous membrane. This study investigated whether coencapsulation of hepatocyte growth factor (HGF) with islets in the device enables novel method of prevascularization-free primary subcutaneous transplantation.
METHODS
In vitro experiments examined slow release of HGF from the chitosan gel and islet-protection effect of HGF against hypoxia. In the latter, rat islets with/without HGF (200 ng/mL) was cultured in 1% oxygen. In in vivo experiment, fabricated device with/without HGF (10 μg/device) containing rat islets was primarily transplanted to streptozotocin-induced diabetic mice subcutaneously.
RESULTS
In vitro experiments showed sustained release of HGF for 28 d and alleviating effect of HGF on cell death and glucose-responsive insulin release after hypoxic culture. Islet + HGF mice, but not islet-alone mice, showed decreased nonfasting blood glucose and regained body weight after transplantation. In intraperitoneal glucose tolerance test, islet + HGF mice exhibited decreased fasting blood glucose (200 ± 55 mg/dL) and good blood glucose disappearance rate ( value) (0.817 ± 0.101) comparing to normal mice (123 ± 28 mg/dL and 1.074 ± 0.374, respectively). However, in islet-alone mice, fasting blood glucose was high (365 ± 172 mg/dL) and value was indeterminable. Serum insulin in islet + HGF mice (1.58 ± 0.94 μg/L) was close to normal mice (1.66 ± 0.55 μg/L), whereas those in islet-alone mice (0.279 ± 0.076 μg/L) and diabetic mice (0.165 ± 0.079 μg/L) were low. Immunohistochemical examination showed intact insulin- and glucagon-positive islets in retrieved devices with HGF, but no intact islet was found in the device without HGF.
CONCLUSIONS
HGF could enhance islet survival in hypoxia and enhance in vivo function of encapsulated islets after primary subcutaneous transplantation.
未标记
皮下囊袋是胰岛移植的一个潜在部位。然而,氧气供应不足仍然是一个挑战。使用碱性成纤维细胞生长因子进行新生血管形成的预处理可以解决这个问题,但需要进行2次手术。我们开发了一种装置,该装置将大鼠胰岛包裹在壳聚糖凝胶中,并装入由高度生物相容性的乙烯-乙烯醇共聚物多孔膜制成的袋子里。本研究调查了在该装置中肝细胞生长因子(HGF)与胰岛共包封是否能实现无需预先血管化的原发性皮下移植新方法。
方法
体外实验检测了HGF从壳聚糖凝胶中的缓慢释放以及HGF对胰岛缺氧的保护作用。在后者的实验中,将含有/不含有HGF(200 ng/mL)的大鼠胰岛在1%氧气环境中培养。在体内实验中,将含有/不含有HGF(10 μg/装置)且包裹大鼠胰岛的预制装置主要皮下移植到链脲佐菌素诱导的糖尿病小鼠体内。
结果
体外实验显示HGF持续释放28天,并且HGF对缺氧培养后的细胞死亡和葡萄糖反应性胰岛素释放具有缓解作用。胰岛+HGF组小鼠,而非单纯胰岛组小鼠,移植后非空腹血糖降低且体重恢复。在腹腔葡萄糖耐量试验中,与正常小鼠(分别为123±28 mg/dL和1.074±0.374)相比,胰岛+HGF组小鼠空腹血糖降低(200±55 mg/dL)且血糖消失率(值)良好(0.817±0.101)。然而,在单纯胰岛组小鼠中,空腹血糖很高(365±172 mg/dL)且值无法确定。胰岛+HGF组小鼠的血清胰岛素(1.58±0.94 μg/L)接近正常小鼠(1.66±0.55 μg/L),而单纯胰岛组小鼠(0.279±0.076 μg/L)和糖尿病小鼠(0.165±0.079 μg/L)的血清胰岛素较低。免疫组织化学检查显示,在含有HGF的回收装置中有完整的胰岛素和胰高血糖素阳性胰岛,但在不含HGF的装置中未发现完整胰岛。
结论
HGF可增强缺氧条件下胰岛的存活,并增强原发性皮下移植后包封胰岛的体内功能。
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