Clinic for Cardiothoracic Surgery, University Hospital Halle (Saale), Martin-Luther University Halle-Wittenberg, Halle (Saale), Germany.
Food Funct. 2012 Oct;3(10):1091-8. doi: 10.1039/c2fo30030c. Epub 2012 Jul 9.
Advanced glycation end products (AGEs) are stable compounds formed from initial Maillard reaction products. They are considered as markers for ageing and often associated with age-related, degenerative diseases. Bread crust represents an established model for nutritional compounds rich in AGEs and is able to induce antioxidative defense genes such as superoxide dismutases and vanins in cardiac cells. The aim of this study was to investigate to what extend the receptor for AGEs (RAGE) contributes to this response. Signal transduction in response to bread crust extract was analysed in cardiac fibroblasts derived from C57/B6-NCrl (RAGE +/+) and the corresponding RAGE-knock out C57/B6-NCrl mouse strain (RAGE -/-). Activation of superoxide dismutases in animals was then analysed upon bread crust feeding in these two mice strains. Cardiac fibroblasts from RAGE -/- mice did not express RAGE, but the expression of AGER-1 and AGER-3 was up-regulated, whereas the expression of SR-B1 was down-regulated. RAGE -/- cells were less sensitive to BCE in terms of MAP-kinase phosphorylation and NF-κB reporter gene activation. Bread crust extract induced mRNA levels of MnSOD and Vnn-1 were also reduced in RAGE -/- cells, whereas Vnn-3 mRNA accumulation seemed to be RAGE receptor independent. In bread crust feeding experiments, RAGE -/- mice did not exhibit an activation of MnSOD-mRNA and -protein accumulation as observed for the RAGE +/+ animals. In conclusion, RAGE was clearly a major factor for the induction of antioxidant defense signals derived from bread crust in cardiac fibroblast and mice. Nevertheless higher doses of bread crust extract could overcome the RAGE dependency in cell cultures, indicating that additional mechanisms are involved in BCE-mediated activation of SOD and vanin expression.
晚期糖基化终末产物(AGEs)是由初始美拉德反应产物形成的稳定化合物。它们被认为是衰老的标志物,并且经常与年龄相关的退行性疾病有关。面包皮代表富含 AGE 的营养化合物的成熟模型,并且能够在心脏细胞中诱导抗氧化防御基因,如超氧化物歧化酶和 vanin。本研究的目的是研究晚期糖基化终末产物受体(RAGE)在多大程度上促进了这种反应。分析了从 C57/B6-NCrl(RAGE +/+)衍生的心脏成纤维细胞和相应的 RAGE 敲除 C57/B6-NCrl 小鼠品系(RAGE -/-)对面包皮提取物的信号转导。然后分析了这两种小鼠品系在面包皮喂养后,超氧化物歧化酶在动物体内的激活情况。RAGE -/- 小鼠的心脏成纤维细胞不表达 RAGE,但 AGER-1 和 AGER-3 的表达上调,而 SR-B1 的表达下调。RAGE -/- 细胞在 MAP 激酶磷酸化和 NF-κB 报告基因激活方面对 BCE 的敏感性较低。BCE 还诱导 RAGE -/- 细胞 MnSOD 和 Vnn-1 的 mRNA 水平降低,而 Vnn-3 mRNA 的积累似乎与 RAGE 受体无关。在面包皮喂养实验中,与 RAGE +/+ 动物观察到的情况相比,RAGE -/- 小鼠没有激活 MnSOD-mRNA 和 -蛋白的积累。总之,RAGE 显然是心脏成纤维细胞和小鼠中源自面包皮的抗氧化防御信号诱导的主要因素。然而,在细胞培养中,更高剂量的面包皮提取物可以克服对 RAGE 的依赖性,这表明 BCE 介导的 SOD 和 vanin 表达的激活涉及其他机制。
