金属硫蛋白和超氧化物歧化酶的联合作用可保护胰岛β细胞免受氧化损伤。

The combination of metallothionein and superoxide dismutase protects pancreatic β cells from oxidative damage.

机构信息

Department of Internal Medicine and Bioengineering, Hanyang University College of Medicine and Engineering, Seoul, Korea.

出版信息

Diabetes Metab Res Rev. 2011 Nov;27(8):802-8. doi: 10.1002/dmrr.1254.

DOI:10.1002/dmrr.1254

PMID:22069263

Abstract

BACKGROUND

Reactive oxygen species are considered an important cause of the death of pancreatic β cells, thereby triggering the development of type 2 diabetes as well as failure of islet transplantation. The biological properties of metallothionein (MT) and superoxide dismutase (SOD) are likely to be related to their antioxidant and free-radical scavenging abilities, but their access across biological membranes is limited.

METHODS

We investigated whether Tat-MT and Tat-SOD fusion protein could be introduced into islets by a novel protein transduction technology and protect them from oxidative damage. We used 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl tetrazolium bromide (MTT) and Annexin V/propidium iodide assays to analyse cell viability, and assessed expression of apoptosis marker proteins by Western blotting. We examined the protective effect of Tat-MT and Tat-SOD on the development of diabetes and on graft failure after syngeneic islet transplantation into Otsuka Long Evans Tokushima Fatty (OLETF) rats and Imprinting Control Region (ICR) mice, respectively.

RESULTS

Tat-MT and Tat-SOD were successfully delivered into the rat islets, and reactive oxygen species, nitric oxide, glucolipotoxicity-induced cell death, cytokine injury, and DNA fragmentation due to ischaemia-reperfusion in pancreatic β cells were significantly reduced. In addition Tat-MT and Tat-SOD treatment protected OLETF rats from developing diabetes, and enhanced the survival of antioxidant-treated islets transplanted into the renal capsules of diabetic mice.

CONCLUSIONS

Transduction of Tat-MT and Tat-SOD proteins offers a new strategy for protecting against the development of diabetes by relieving oxidative stress.

摘要

背景

活性氧被认为是导致胰岛β细胞死亡的一个重要原因，从而引发 2 型糖尿病的发生以及胰岛移植的失败。金属硫蛋白（MT）和超氧化物歧化酶（SOD）的生物学特性可能与其抗氧化和清除自由基的能力有关，但它们穿过生物膜的能力有限。

方法

我们研究了 Tat-MT 和 Tat-SOD 融合蛋白是否可以通过一种新的蛋白质转导技术被引入胰岛，并保护它们免受氧化损伤。我们使用 3-[4,5-二甲基噻唑-2-基]-2,5-二苯基四氮唑溴盐（MTT）和 Annexin V/碘化丙啶检测法分析细胞活力，并通过 Western blot 检测凋亡标志物蛋白的表达。我们研究了 Tat-MT 和 Tat-SOD 对 Otsuka Long Evans Tokushima Fatty（OLETF）大鼠和印迹控制区（ICR）小鼠同种胰岛移植后糖尿病发展和移植物衰竭的保护作用。

结果

Tat-MT 和 Tat-SOD 成功地转导到大鼠胰岛中，并且活性氧、一氧化氮、糖脂毒性诱导的细胞死亡、细胞因子损伤以及缺血再灌注引起的胰岛β细胞 DNA 片段化均显著减少。此外，Tat-MT 和 Tat-SOD 治疗还可防止 OLETF 大鼠发生糖尿病，并增强抗氧化处理的胰岛在糖尿病小鼠肾囊内移植的存活率。

结论

转导 Tat-MT 和 Tat-SOD 蛋白为通过缓解氧化应激来预防糖尿病的发展提供了一种新策略。

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金属硫蛋白和超氧化物歧化酶的联合作用可保护胰岛β细胞免受氧化损伤。

The combination of metallothionein and superoxide dismutase protects pancreatic β cells from oxidative damage.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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