Dunger A, Cunningham J M, Delaney C A, Lowe J E, Green M H, Bone A J, Green I C
Institute of Diabetes, University of Greifswald, Karlsburg, Germany.
Diabetes. 1996 Feb;45(2):183-9. doi: 10.2337/diab.45.2.183.
Nitric oxide has been implicated as one possible mediator of interleukin-1 beta (IL-1)-induced inhibition of insulin secretion and islet cell damage. The aim of this study was to define the effects of tumor necrosis factor-alpha (TNF) and interferon-gamma (IFN) on nitric oxide production, insulin secretion, and DNA damage in islets from unweaned rats. Treatment of islets with 0.5-500 U/ml of either TNF or IFN on their own inhibited glucose-stimulated insulin secretion in a dose-dependent manner (minimum effective dose 5 U/ml). In combination, the cytokines exerted a pronounced synergistic inhibitory effect on secretion and were equipotent at causing a significant and concentration-dependent increase in culture medium nitrite levels, islet cyclic GMP formation, and DNA damage. Used alone or in combination, TNF and IFN significantly enhanced the activity of inducible nitric oxide synthase as determined by measuring the conversion of 14C-labeled arginine to 14C-labeled citrulline and nitric oxide. Use of arginine-free medium, without or with NG-monomethyl-L-arginine, resulted in inhibition of nitrite formation by 5-1,000 U/ml IFN+TNF and partial restoration of the insulin secretory response to glucose. Treatment of rat islets with increasing doses of TNF+IFN (5, 50, and 500 U/ml) resulted in a progressive increase in DNA damage, as shown by the comet assay, which detects DNA strand breaks in individual islet cells. The DNA damage caused by an intermediate concentration (50 U/ml) of TNF+IFN was comparable to that generated by IL-1 when used at 20 U/ml. We conclude that TNF and IFN induce nitric oxide formation, which partially inhibits glucose-induced insulin secretion and causes significant DNA strand breakage, but that as cytokine concentrations increase, non-nitric-oxide-mediated events predominate.
一氧化氮被认为是白细胞介素 -1β(IL-1)诱导的胰岛素分泌抑制和胰岛细胞损伤的一种可能介质。本研究的目的是确定肿瘤坏死因子 -α(TNF)和干扰素 -γ(IFN)对未断奶大鼠胰岛中一氧化氮产生、胰岛素分泌和DNA损伤的影响。单独用0.5 - 500 U/ml的TNF或IFN处理胰岛,均以剂量依赖方式抑制葡萄糖刺激的胰岛素分泌(最小有效剂量为5 U/ml)。联合使用时,细胞因子对分泌产生明显的协同抑制作用,并且在导致培养基中亚硝酸盐水平、胰岛环鸟苷酸形成和DNA损伤显著且浓度依赖性增加方面具有同等效力。单独或联合使用时,通过测量14C标记的精氨酸向14C标记的瓜氨酸和一氧化氮的转化来确定,TNF和IFN显著增强了诱导型一氧化氮合酶的活性。使用无精氨酸培养基,无论有无NG-单甲基-L-精氨酸,均可抑制5 - 1,000 U/ml IFN + TNF诱导的亚硝酸盐形成,并部分恢复对葡萄糖的胰岛素分泌反应。用递增剂量的TNF + IFN(5、50和500 U/ml)处理大鼠胰岛,如彗星试验所示,会导致DNA损伤逐渐增加,该试验可检测单个胰岛细胞中的DNA链断裂。TNF + IFN中等浓度(50 U/ml)引起的DNA损伤与20 U/ml的IL-1产生的损伤相当。我们得出结论,TNF和IFN诱导一氧化氮形成,这部分抑制葡萄糖诱导的胰岛素分泌并导致显著的DNA链断裂,但随着细胞因子浓度增加,非一氧化氮介导的事件占主导。
