Effect of resveratrol and catechin on PC12 tyrosine kinase activities and their synergistic protection from beta-amyloid toxicity.

A Conte, S Pellegrini, D Tagliazucchi
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Abstract

beta-Amyloid peptide (beta-AP) is the main component of amyloid deposits around the cerebral vessel and in the brain parenchyma in Alzheimer's disease and Down's syndrome. In vitro studies in neuronal cells or in PC12 and Hela cell lines have shown that the aggregate form of beta-AP is toxic. Many genetic and environmental factors including metal ions, proteoglycans, plasma proteins and antioxidants modify beta-AP toxicity. We investigated the effect of two plant polyphenols--resveratrol and catechin--on soluble and particulate tyrosine kinase activity from PC12 cells and the protective action of these compounds against beta-AP (1-41) toxicity. beta-AP (1-41) decreased PC12 viability with an IC50 value of 1.1 +/- 0.14 x 10(-8) M. Resveratrol and catechin protected PC12 cells from beta-AP (1-41) toxicity. With 25 microM resveratrol the IC50 value increased to 2.2 +/- 0.19 x 10(-7) M. In the presence of beta-AP (1-41) resveratrol showed a concentration-dependent biphasic effect, and at a concentration of up to 40 microM it protected PC12 cells from beta-AP (1-41) toxicity. At concentrations higher than 40 microM, an inhibitory activity on cell proliferation appeared. This antiproliferative effect was also seen in the absence of beta-AP (1-41). With 100 microM catechin the IC50 value increased from 1.1 +/- 0.14 x 10(-8) M to 3.2 +/- 0.25 x 10(-7) M beta-AP (1-41). The protective effect was concentration dependent. Resveratrol and catechin had a synergistic protective action. In the presence of 40 microM catechin and 10 microM resveratrol or 20 microM resveratrol and 10 microM catechin, the toxicity determined by 10(-7) M beta-AP (1-41) was almost completely removed. Resveratrol and catechin had different effects on PC12 tyrosine kinase activity. With peptide 1-17 of gastrin as substrate, resveratrol inhibited particulate tyrosine kinases while it had no effect on soluble activity. With the same substrate, catechin increased the activity of soluble fraction while it inhibited particulate activity. When peptide 6-20 of cell division kinase p34cdc2 was utilized, catechin showed an opposite effect, inhibiting soluble tyrosine kinase activity and increasing particulate activity. With peptide 6-20, resveratrol inhibited both soluble and particulate activities. These results demonstrate that resveratrol and catechin have different activities on the signal transduction pathway involving protein phosphorylation. These differences may contribute not only to the different effects of these compounds on PC12 growth but also to the synergistic effect against beta-AP (1-41) toxicity. The different activity of resveratrol and catechin on signal transduction pathways, as well as the differences in metal chelation, partition coefficient between water and lipids, hydrogen donation redox potential and enzyme inhibition may be at least in part based on synergistic protection against beta-AP (1-41) toxicity.

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白藜芦醇和儿茶素对PC12酪氨酸激酶活性的影响及其对-淀粉样蛋白毒性的协同保护作用。
β -淀粉样蛋白肽(β - ap)是阿尔茨海默病和唐氏综合征患者脑血管周围和脑实质淀粉样蛋白沉积的主要成分。神经细胞或PC12和Hela细胞系的体外研究表明,β - ap的聚集形式是有毒的。包括金属离子、蛋白聚糖、血浆蛋白和抗氧化剂在内的许多遗传和环境因素可改变β - ap毒性。我们研究了两种植物多酚——白藜芦醇和儿茶素——对PC12细胞可溶性和颗粒酪氨酸激酶活性的影响,以及这些化合物对β - ap(1-41)毒性的保护作用。β - ap(1-41)降低PC12细胞活力,IC50值为1.1 +/- 0.14 × 10(-8) M.白藜芦醇和儿茶素保护PC12细胞免受β - ap(1-41)的毒性。当白藜芦醇浓度为25 μ m时,IC50值增加到2.2 +/- 0.19 × 10(-7) m。在β - ap(1-41)存在时,白藜芦醇表现出浓度依赖的双相效应,当浓度高达40 μ m时,白藜芦醇可保护PC12细胞免受β - ap(1-41)的毒性。浓度大于40 μ m时,对细胞增殖有抑制作用。这种抗增殖作用在缺乏β - ap的情况下也可见(1-41)。当儿茶素浓度为100 μ M时,IC50值从1.1 +/- 0.14 × 10(-8) M增加到3.2 +/- 0.25 × 10(-7) M β - ap(1-41)。保护作用呈浓度依赖性。白藜芦醇和儿茶素具有协同保护作用。在40 μ M儿茶素和10 μ M白藜芦醇或20 μ M白藜芦醇和10 μ M儿茶素的作用下,用10(-7)M β - ap(1-41)测定的毒性几乎完全消失。白藜芦醇和儿茶素对PC12酪氨酸激酶活性的影响不同。以胃泌素肽1-17为底物,白藜芦醇对颗粒酪氨酸激酶有抑制作用,但对可溶性活性无影响。在相同的底物条件下,儿茶素增加了可溶性部分的活性,抑制了颗粒活性。当利用细胞分裂激酶p34cdc2的肽6-20时,儿茶素表现出相反的作用,抑制可溶性酪氨酸激酶活性,增加颗粒活性。与肽6-20,白藜芦醇抑制可溶性和颗粒活性。这些结果表明,白藜芦醇和儿茶素在涉及蛋白磷酸化的信号转导通路上具有不同的活性。这些差异可能不仅导致了这些化合物对PC12生长的不同影响,而且还导致了对β - ap(1-41)毒性的协同作用。白藜芦醇和儿茶素在信号转导途径上的不同活性,以及在金属螯合、水与脂质之间的分配系数、供氢氧化还原电位和酶抑制方面的差异,可能至少部分基于对β - ap(1-41)毒性的协同保护。
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