Xiaohui T, Wujun X, Xiaoming D, Xinlu P, Yan T, Puxun T, Xinshun F
Department of Renal Transplantation, First Hospital of the Xi'an Jiao Tong University, Xi'an, ShannXi, China, People's Republic of China.
Transplant Proc. 2006 Jun;38(5):1552-8. doi: 10.1016/j.transproceed.2006.02.134.
Most centers maintain isolated human islet preparations in tissue culture to improve the safety as well as the practicality of islet transplantation. However, maintaining viability and recovery of islets remains a challenge. Extracellular matrix (ECM) is one of the most important components of the islet microenvironment. Reconstruction of the cell-matrix relationship seems to be necessary to sustain the structure and function of differentiated islets. Small intestinal submucosa (SIS), a natural ECM, is well known to promote wound healing, tissue remodeling, and cell growth. The purpose of this study was to evaluate recovery and function of isolated rat pancreatic islets during in vitro culture with SIS.
Pancreatic islets isolated from Wistar rats following intraductal collagenase distension, mechanical dissociation, and EuroFicoll purification were cultured in plates coated with multilayer SIS (SIS-treated group) or without (standard cultured group) for 7 or 14 days in an islet culture media of RPMI 1640 (Gibco). The islets from both experimental groups were stained and counted with dithizone. Islet recovery following culture was determined by the ratio of counts after culture to the yield of islets immediately following islet isolation. The viability of the islets was assessed by a glucose challenge test with low glucose (2.7 mmol/L), high glucose (16.7 mmol/L), and high glucose solution supplemented with 50 micromol/L 3-isobutyl-1-methylxanthine solution. The apoptosis of islet cells was measured by relative quantification of histone-complexed DNA fragments by using enzyme-linked immunosorbent assay.
After 7 or 14 days of in vitro tissue culture, the recovery in SIS-treated islets group was about double of that cultured in the plates without SIS coating. In the SIS-treated group, there was no significant difference between the short- and the long-term periods of culture (95.8%+/-1.0% vs 90.8%+/-1.5%, P>.05). Following incubation with high glucose (16.7 mmol/L) solution, the insulin secretion in the SIS-treated group showed a greater increase than the control group after 14 days of culture (20.7+/-1.1 mU/L vs 11.8+/-1.1 mU/L, P<.05). When islets were placed in the high glucose solution containing IBMX, the stimulated insulin secretion was more increased in the SIS-treated than in the control group despite the duration of the culture. The calculated stimulation index of SIS-treated group was about two to three times greater than the control group. In addition, the stimulation index of the SIS-treated group remained constant regardless of short-term versus long-term culture (9.5+/-0.2 vs 10.2+/-1.2, P>.05). Much less apoptosis of islet cells occurred in the SIS-treated than in the control group.
Coculture of isolated rat islets with native sheetlike small intestinal submucosa seemed to build an ECM for islets providing possible biotrophic and growth factors that promote the recovery and subsequent function of islets.
大多数中心在组织培养中维持分离的人胰岛制剂,以提高胰岛移植的安全性和实用性。然而,维持胰岛的活力和回收率仍然是一个挑战。细胞外基质(ECM)是胰岛微环境的最重要组成部分之一。重建细胞与基质的关系似乎对于维持分化胰岛的结构和功能是必要的。小肠黏膜下层(SIS),一种天然的ECM,众所周知可促进伤口愈合、组织重塑和细胞生长。本研究的目的是评估在体外与SIS共同培养期间分离的大鼠胰岛的回收率和功能。
从Wistar大鼠中分离的胰岛,经导管内胶原酶扩张、机械解离和EuroFicoll纯化后,在涂有多层SIS的培养板(SIS处理组)或未涂覆的培养板(标准培养组)中,于RPMI 1640(Gibco)胰岛培养基中培养7或14天。两个实验组的胰岛用双硫腙染色并计数。培养后的胰岛回收率通过培养后计数与胰岛分离后立即获得的胰岛产量之比来确定。通过低葡萄糖(2.7 mmol/L)、高葡萄糖(16.7 mmol/L)以及补充有50 μmol/L 3 - 异丁基 - 1 - 甲基黄嘌呤溶液的高葡萄糖溶液进行葡萄糖刺激试验来评估胰岛的活力。通过使用酶联免疫吸附测定法对组蛋白复合DNA片段进行相对定量来测量胰岛细胞的凋亡。
体外组织培养7或14天后,SIS处理的胰岛组的回收率约为未涂覆SIS的培养板中培养的胰岛回收率的两倍。在SIS处理组中,短期和长期培养之间没有显著差异(95.8%±1.0%对90.8%±1.5%,P>0.05)。在高葡萄糖(16.7 mmol/L)溶液孵育后,培养14天后SIS处理组的胰岛素分泌比对照组有更大的增加(20.7±1.1 mU/L对11.8±1.1 mU/L,P<0.05)。当胰岛置于含有异丁基甲基黄嘌呤的高葡萄糖溶液中时,无论培养时间长短,SIS处理组的刺激胰岛素分泌比对照组增加得更多。SIS处理组计算出的刺激指数比对照组大约高两到三倍。此外,SIS处理组的刺激指数无论短期还是长期培养都保持恒定(9.5±0.2对10.2±1.2,P>0.05)。SIS处理组中发生的胰岛细胞凋亡比对照组少得多。
分离的大鼠胰岛与天然片状小肠黏膜下层共同培养似乎为胰岛构建了一个ECM,提供了可能促进胰岛恢复和后续功能的生物营养和生长因子。
