仓鼠胰岛快速冷冻保存的研究。

W Fukushima, M Note, Y Kojima, G Nakagawara
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引用次数: 0

摘要

为了明确开发胰岛冷冻快速冷却速率的可能性,我们使用25摄氏度/分钟的冷却速率进行仓鼠胰岛冷冻保存,使用15%二甲亚砜作为冷冻保护剂。保存后,通过测定葡萄糖刺激后的胰岛素释放量以及10个胰岛的胰岛素和DNA含量来检测胰岛的形态和功能。此外,用放射自显影技术研究了胰岛细胞的复制活性。研究了胰岛移植对同种异种移植的影响。使用25℃/min的快速冷却速度冷冻与1℃/min的缓慢冷却速度冷冻对仓鼠胰岛的冷冻保存同样有效。形态学上,冷冻保存的胰岛与非冷冻培养的胰岛相似。葡萄糖刺激的胰岛素释放和细胞体外复制活性也保持不变,而每个胰岛的细胞数量在冷冻保存后略有下降。异基因移植后胰岛移植归一化链脲佐菌素诱导高血糖。另一方面,异种仓鼠胰岛移植给大鼠时,没有观察到移植物存活的延长。等基因移植胰岛在体内具有相同的细胞复制活性,甚至高于正常的原位胰岛。总之,目前的研究结果表明,仓鼠胰岛可以使用快速冷却速率成功冷冻保存,然而,这种处理似乎并没有降低胰岛对异种移植排斥反应的易感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cryopreservation of hamster pancreatic islets using a rapid cooling rate.

To clarify the possibility of developing a rapid cooling rate for islet cryopreservation, we used a cooling rate of 25 degrees C/min for hamster pancreatic islet cryopreservation using 15 per cent dimethylsulfoxide as a cryoprotectant. After preservation, these islets were examined for their morphology and function by assaying the insulin release after glucose stimulation and the contents of the insulin and DNA in 10 islets. In addition, islet cell replicatory activity was investigated by an autoradiographic technique. The effects of transplantation of the islets upon isogeneic and xenogeneic transplantation were also examined. Freezing using a rapid cooling rate of 25 degrees C/min was found to be as effective as a slow cooling rate of 1 degree C/min for hamster islet cryopreservation. Morphologically, the cryopreserved islets appeared to be similar to the non-frozen cultured islets. The glucose-stimulated insulin release and cell replicatory activities in vitro also remained unchanged, whereas the number of cells per islet decreased slightly after cryopreservation. The grafting of cryopreserved islets normalized streptozotocin induced hyperglycemia following isogeneic transplantation. On the other hand, no prolongation of graft survivals in the case of the xenogeneic transplantation of hamster islets to rats was observed. The isogeneically transplanted islets exhibited the same cell replicatory activities in vivo, which was even higher compared that of normal hamster pancreatic islets in situ. In conclusion, the present findings indicate that hamster pancreatic islets can be successfully cryopreserved using a rapid cooling rate, however, it does not appear that this treatment reduces islet vulnerability to xenogeneic graft rejection.

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