Grankvist K, Marklund S, Sehlin J, Täljedal I B
Biochem J. 1979 Jul 15;182(1):17-25. doi: 10.1042/bj1820017.
Experiments with isolated pancreatic islets or dispersed islet cells from non-inbred ob/ob mice were performed to test the hypothesis that free radicals, notably OH., mediate the diabetogenic toxicity of alloxan. Accumulation of 86Rb+ by whole islets and exclusion of Trypan Blue by dispersed cells were used as previously validated criteria of islet-cell viability. Alloxan alone drastically inhibited the Rb+ accumulation and significantly decreased the frequency of cells excluding Trypan Blue. Enzymic scavengers of O2.- and H2O2 or non-enzymic scavengers of OH. or singlet oxygen were added to the incubation medium and tested for their ability to protect against these effects of alloxan. Superoxide dismutase, catalase, dimethyl sulphoxide, benzoate, and mannitol counteracted the effects of alloxan in both cytotoxicity assays. Significant protection of the Rb+-accumulating capacity was also afforded by butanol, caffeine, theophylline, NADH, NADPH and, to a small extent, NAD+. Urea has a poor affinity for OH. and did not protect against alloxan. No effect was obtained with the singlet-oxygen scavenger, histidine. Except for the protection by NADH and NADPH, which may be due to a direct reaction with alloxan in the medium, the results strongly support the hypothesis. beta-Cells may be particularly vulnerable to alloxan because their metabolic specialization facilitates reduction of the drug and perhaps of other substrates for O2.--yielding redox cycles.
对非近交系ob/ob小鼠分离的胰岛或分散的胰岛细胞进行了实验,以检验自由基尤其是羟基自由基介导四氧嘧啶致糖尿病毒性这一假说。完整胰岛对86Rb+的摄取以及分散细胞对台盼蓝的排斥被用作先前验证过的胰岛细胞活力标准。单独使用四氧嘧啶会显著抑制Rb+摄取,并显著降低排斥台盼蓝的细胞频率。将O2-和H2O2的酶促清除剂或OH.或单线态氧的非酶促清除剂添加到孵育培养基中,并测试它们防止四氧嘧啶这些作用的能力。超氧化物歧化酶、过氧化氢酶、二甲基亚砜、苯甲酸盐和甘露醇在两种细胞毒性试验中都抵消了四氧嘧啶的作用。丁醇、咖啡因、茶碱、NADH、NADPH以及在较小程度上的NAD+也对Rb+摄取能力提供了显著保护。尿素对OH.的亲和力较差,不能防止四氧嘧啶的作用。单线态氧清除剂组氨酸没有效果。除了NADH和NADPH的保护作用可能是由于与培养基中的四氧嘧啶直接反应外,结果强烈支持该假说。β细胞可能对四氧嘧啶特别敏感,因为它们的代谢特化促进了药物以及可能其他产生O2-的氧化还原循环底物的还原。