混合胰岛移植物中的人胰岛保护小鼠胰岛细胞免受四氧嘧啶毒性。

B Tyrberg, D L Eizirik, S L Marklund, B Olejnicka, O D Madsen, A Andersson
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引用次数: 8

摘要

我们之前已经证明人类β细胞能够抵抗四氧嘧啶的毒性作用。为了进一步阐明人类胰岛的这一特性,我们研究了这些细胞是否可能将它们的四氧嘧啶抗性转移到四氧嘧啶敏感的大鼠或小鼠胰岛。将人-小鼠或大鼠-小鼠两种胰岛混合成一种移植物,植入裸鼠肾包膜下间隙。植入2周后静脉注射四氧嘧啶或生理盐水,1周后处死小鼠。免疫组化后,采用半定量方法评估移植和内源性β细胞的数量。用elisa技术分析人胰岛产生的清除酶细胞外超氧化物歧化酶和血浆谷胱甘肽过氧化物酶,用辣根过氧化物酶依赖试验监测小鼠和人胰岛过氧化氢分解活性。小鼠β细胞与人胰岛一起移植,对四氧嘧啶细胞毒性具有保护作用。大鼠胰岛不能保护小鼠β细胞免受四氧嘧啶的侵害,这表明混合过程本身并没有施加保护作用。胰岛细胞外超氧化物歧化酶和血浆谷胱甘肽过氧化物酶的产生非常低。此外,体外H2O2分解在人和小鼠胰岛之间没有差异。四氧嘧啶不敏感的人胰岛保护小鼠β细胞免受四氧嘧啶诱导的损伤,这表明尚未确定的细胞外因子参与了人胰岛对四氧嘧啶毒性的抵抗。
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Human islets in mixed islet grafts protect mouse pancreatic beta-cells from alloxan toxicity.

We have previously shown that human beta-cells are resistant to the toxic effects of alloxan. In order to further clarify this characteristic of human islets, we investigated whether these cells might transfer their alloxan resistance to alloxan-sensitive rat or mouse islets. Islets from two species (human-mouse or rat-mouse) were mixed into one graft, which was implanted into the subcapsular kidney space of nude mice. Alloxan or saline was injected intravenously two weeks after implantation and one week thereafter the mice were killed. The number of grafted and endogenous beta-cells were evaluated by a semi-quantitative method after immunohistochemistry. Human islet production of the scavenging enzymes extracellular superoxide dismutase and plasma glutathione peroxidase were analyzed with ELISA-techniques, and mouse and human islet hydrogen peroxide breakdown activity were monitored with a horseradish peroxidase-dependent assay. Mouse beta-cells transplanted together with human islets were protected against alloxan cytotoxicity. Rat islets did not protect mouse beta-cells against alloxan, suggesting that the mixing procedure as such did not impose the protection. Production of extracellular superoxide dismutase and plasma glutathione peroxidase by human islets was very low. Moreover, H2O2 breakdown in vitro, did not differ between human and mouse islets. Alloxan-insensitive human islets protect mouse beta-cells against alloxan-induced lesions, suggesting that yet to be identified extracellular factors are involved in human islet resistance to alloxan toxicity.

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