Endogenous dopamine (DA) renders dopaminergic cells vulnerable to challenge of proteasome inhibitor MG132

This study demonstrated that dopaminergic MN9D and PC12 cells were more vulnerable than non-dopaminergic N2A cells to the challenge by proteasome inhibitor MG132, which could be alleviated by reductants and alpha-methyl tyrosine (alpha-MT), a specific tyrosine hydroxylase inhibitor. Furthermore, challenging non-dopaminergic N2A cells with exogenous DA could aggravate MG132-induced cell viability decrease, which could be abrogated by reductants but not by alpha-MT. It was observed that alpha-MT could decrease endogenous DA content in dopaminergic MN9D and PC12 cells while N2A cells could take in exogenous DA into cytosol. The endogenous DA in dopaminergic cells was demonstrated to inhibit proteasome activity in the cells and further sensitize the proteasome to MG132 inhibition. In addition, the endogenous DA was also implicated for the increased level of lipid peroxidation and ubiquitinated proteins as well as inclusion bodies formation when non-dopaminergic cells were challenged with exogenous DA. Taken together it is proposed that endogenous DA in dopaminergic neurons could promote selective dopaminergic neurodegeneration, especially under the conditions of exopathic or idiopathic defects of ubiquitin–proteasome system (UPS), which may be abolished by reductant remedy.     

蛋白酶体抑制剂MG132诱导K562和HeLa细胞凋亡程度存在明显差异

蛋白酶体抑制剂MG132诱导人白血病细胞K562和宫颈癌细胞HeLa凋亡,用3个不同浓度的蛋白酶体抑制剂MG132处理人白血病细胞K562和宫颈癌细胞HeLa,通过MTT检测、annexin Ⅴ/ PI 双染法、流式细胞术、酶标仪和Western 印迹分别检测MG132对K562细胞和HeLa细胞的生长效应、细胞凋亡率、细胞内活性氧(ROS)水平和caspase-3活性变化的影响.蛋白酶体抑制剂MG132诱导K562细胞凋亡明显,对HeLa细胞诱导凋亡不明显.结果表明,蛋白酶体抑制剂MG132特异性诱导不同肿瘤细胞凋亡的程度存在明显差异.     

Comparative study of alloxan effects in copper-loaded and iron-loaded rats: lipid peroxidation, protein oxidation, proteasome and antioxidant enzyme activities

The in-vivo effects of alloxan on protein oxidation and lipid peroxidation, as well as on proteasome and antioxidant enzyme activities in liver and kidney of copper-loaded and iron-loaded rats, were studied. In control animals, a single alloxan dose (120 mg/kg, i.p.) increased blood-glucose concentration at the 24^th hr and 48^th hr and, especially, on the 5^th day. For these periods of alloxan action, no changes in lipid peroxidation and antioxidant enzyme activities were found; only a slight increase of carbonyl content and strong increase of trypsin-like proteasome activity in rat liver on the 5^th day was observed. Five days after alloxan injection, the blood-glucose concentration in iron-pretreated rats was similar to that of the controls. However, it was significantly lower in copper-pretreated animals; hence, insulin-mimetic action of copper might be suggested. The lower proteasome activity, measured in liver of copper-pretreated diabetic rats is probably due to a potential copper-chelating ability of alloxan. The present results showed that the action of alloxan was different in copper-and iron-pretreated rats. Analogous studies, using pretreatment with other metals, would contribute to a further elucidation of the role of different metals in diabetes development, especially in regions with environmental metal contamination.     

Proteasome inhibitor MG132 enhances TRAIL-induced apoptosis and inhibits invasion of human osteosarcoma OS732 cells

MG132 as a proteasome inhibitor could induce apoptosis in various cancer cells. This study aimed to discuss the effect of proteasome inhibitor MG132 on the TRAIL-induced apoptosis of human osteosarcoma OS732 cells. MG132 and TRAIL were applied on OS732 cells respectively or jointly. Cell survival rates, changes of cellular shape, cell apoptosis and cell invasion were analyzed, respectively, by 3-(4,5)-dimethylthiahiazo(-z-y1)-2,5-di-phenytetrazoliumromide (MTT) assay, inverted phase contrast microscope, flow cytometry, and transwell invasion chamber methods. The protein levels of DR5, caspase-3, caspase-8, p27^kip1 and MMP-9 were measured by Western blot analysis. The results indicated that combination of MG132 and TRAIL had the effect of up-regulating expression of DR5, caspase-3, caspase-8 and p27^kip1, down-regulating expression of MMP-9 and inducing apoptosis as well as suppressing the ability of invasion of OS732 cells. The survival rate of combined application of 10 μM MG132 and 100 ng/ml TRAIL on OS732 cells was significantly lower than that of the individual application (p < 0.01). Changes of cellular shape and apoptotic rates also indicated the apoptosis-inducing effect of combined application was much stronger than that of individual application. Cell cycle analysis showed combination of MG132 and TRAIL mostly caused OS732 cells arrested at G2–M-phase. The invasion ability of OS732 cells was restrained significantly in the combined group compared with the individual group and control group.     

Effects of long-term exposure to low levels of organophosphorous pesticides and their mixture on altered antioxidative defense mechanisms and lipid peroxidation in rat liver

Organophosphorous pesticides, commonly used in agriculture for achieving better quality products, are toxic substances that have harmful effects on human health. Recent research on pesticides, especially pesticide mixtures, has shown that they are one of the key environmental health issues. The aim of the present study was to investigate whether dichlorvos, acephate, dimethoate and phorate, either used separately or in combination, can induce oxidative damage in rat livers. The levels of superoxide dismutase, glutathione peroxidase, catalase and lipid peroxidation products (malondialdehyde) were used as criteria. Low, middle and high doses of pesticides in drinking water were continuously administered orally to rats ad libitum for 24 weeks. Results show that the antioxidative defense mechanisms and lipid peroxidation in the rat livers display different responses, depending on the pesticide treatments and doses. The parameters for acephate, dichlorvos, phorate and dimethoate in the low-dose group, and the corresponding low-dose co-treated group were not altered. The oxidative damage in rat livers showed different responses with increasing pesticide dose according to the different pesticide treatments. The combination group of dichlorvos, acephate, dimethoate and phorate displayed different responses compared with the single pesticide-treated group. However, these responses did not constitute the sum of the response produced by each pesticide in the liver.     

Effects of bromoethylamine on antioxidant capacity,lipid peroxidation,and morphological characteristics of rat liver

Administration of bromoethylamine (BEA, 1.2 mmol/kg) to fed rats induced a significant diminution in the activity of hepatic superoxide dismutase (at 1 h after treatment), catalase, and glutathione peroxidase and in the content of nonprotein sulfhydryls (at 15 h after treatment). The content of thiobarbituric acid reactants by the liver was enhanced by 1.9 times over control values (at 3 h). Light microscopy studies revealed that BEA (72 h after treatment) induced periportal fatty accumulation, focal liver cell necrosis, and diffuse inflammatory infiltrates, in addition to hypertrophic Kupffer cells and mitotic hepatocytes. Also, hypertrophic middle tunic or hypertrophic smooth muscle layers of arterioles was observed in the periportal space, with dilated sinusoidal capillaries and free macrophage infiltration. It is concluded that BEA induces a derangement in the antioxidant status of the liver with the consequent lipid peroxidation response, which may constitute a significant hepatotoxic mechanism of the haloaklylamine. © 1998 John Wiley & Sons, Inc. J Biochem Mol Toxicol 13: 47–52, 1999     

Effects of fasting on oxidative stress in rat liver mitochondria

While moderate caloric restriction has beneficial effects on animal health state, fasting may be harmful. The present investigation was designed to test how fasting affects oxidative stress, and to find out whether the effects are opposite to those previously found in caloric restriction studies. We have focused on one of the main determinants of aging rate: the rate of mitochondrial free radical generation. Different parameters related to lipid and protein oxidative damage were also analyzed. Liver mitochondria from rats subjected to 72 h of fasting leaked more electrons per unit of O₂ consumed at complex III, than mitochondria from ad libitum fed rats. This increased leak led to a higher free radical generation under state 3 respiration using succinate as substrate. Regarding lipids, fasting altered fatty acid composition of hepatic membranes, increasing the double bond and the peroxidizability indexes. In accordance with this, we observed that hepatic membranes from the fasted animals were more sensitive to lipid peroxidation. Hepatic protein oxidative damage was also increased in fasted rats. Thus, the levels of oxidative modifications, produced either indirectly by reactive carbonyl compounds (N^epsilon- malondialdehyde-lysine), or directly through amino acid oxidation (glutamic and aminoadipic semialdehydes) were elevated due to the fasting treatment in both liver tissue and liver mitochondria. The current study shows that severe food deprivation increases oxidative stress in rat liver, at least in part, by increasing mitochondrial free radical generation during state 3 respiration and by increasing the sensitivity of hepatic membranes to oxidative damage, suggesting that fasting and caloric restriction have different effects on liver mitochondrial oxidative stress.     

Effects of fasting on oxidative stress in rat liver mitochondria

While moderate caloric restriction has beneficial effects on animal health state, fasting may be harmful. The present investigation was designed to test how fasting affects oxidative stress, and to find out whether the effects are opposite to those previously found in caloric restriction studies. We have focused on one of the main determinants of aging rate: the rate of mitochondrial free radical generation. Different parameters related to lipid and protein oxidative damage were also analyzed. Liver mitochondria from rats subjected to 72 h of fasting leaked more electrons per unit of O₂ consumed at complex III, than mitochondria from ad libitum fed rats. This increased leak led to a higher free radical generation under state 3 respiration using succinate as substrate. Regarding lipids, fasting altered fatty acid composition of hepatic membranes, increasing the double bond and the peroxidizability indexes. In accordance with this, we observed that hepatic membranes from the fasted animals were more sensitive to lipid peroxidation. Hepatic protein oxidative damage was also increased in fasted rats. Thus, the levels of oxidative modifications, produced either indirectly by reactive carbonyl compounds (N^epsilon- malondialdehyde-lysine), or directly through amino acid oxidation (glutamic and aminoadipic semialdehydes) were elevated due to the fasting treatment in both liver tissue and liver mitochondria. The current study shows that severe food deprivation increases oxidative stress in rat liver, at least in part, by increasing mitochondrial free radical generation during state 3 respiration and by increasing the sensitivity of hepatic membranes to oxidative damage, suggesting that fasting and caloric restriction have different effects on liver mitochondrial oxidative stress.     

Biochemical effects of chlorpyrifos and deltamethrin on altered antioxidative defense mechanisms and lipid peroxidation in rat liver

Pesticides such as organophosphorus and organochlorine compounds commonly used in agriculture for achieving better quality products are toxic substances and lead to generation of reactive oxygen species (ROS) which have harmful effects on human health. While pyrethroid pesticides are used in preference to organophosphates and organochlorines due to their high effectiveness, low toxicity to non-target organisms and easy biodegradability, they may also produce oxidative stress. Thus, we investigated the effects of chlorpyrifos (CP, an organophosphate) and deltamethrin (DM, a pyrethroid pesticide) treatments at low and high doses on lipid peroxidation (LPO) and antioxidant enzyme activities such as SOD, GSH-Px and CAT in rat liver following 16 weeks exposure. Antioxidative defence mechanisms and lipid peroxidation in rat liver tissues display different responses depending on different pesticide treatments and doses. Biochemical analysis showed that administrations of the chlorpyrifos and deltamethrin cause liver damage. In the present study, we observed that lipid peroxidation levels are higher at high doses than at low doses, but DM caused more pronounced increase than CP. Experimentally, we have also observed that oxidant-antioxidant balance is more affected by deltamethrin treatment than by chlorpyrifos.     

蓝光和蛋白酶体抑制剂MG132对蛹虫草形态的影响

蓝光是影响生物生长发育过程的重要因素,同时生物个体的生长发育过程中不断有蛋白质的泛素化降解。采用蓝光和蛋白酶体抑制剂MG132处理蛹虫草菌,观察蛹虫草菌落、菌丝体和子实体形态的变化。研究结果表明,黑暗条件下正常生长的菌落边缘圆滑一致,菌落之间融合无边界;MG132处理后,菌落之间出现明显的界限,边缘菌丝稀疏。蓝光条件下无MG132处理时,菌落较为单薄,转色明显;MG132处理时,菌落中间橙色,边缘颜色变淡。扫描电镜观察,黑暗条件下无MG132处理的菌丝自然弯曲,菌丝表面较为光滑,菌丝粗细差别不大且分枝较少,分生孢子表面较光滑。黑暗条件下MG132处理菌丝体,菌丝较直且分枝较多,菌丝容易断裂,分生孢子表面仍较光滑。蓝光条件下菌丝体弯曲减少,菌丝表面较为粗糙,单条菌丝常出现部分区段膨大呈不规则状,菌丝粗细差异较大,菌丝断裂较多;分生孢子呈扁平的椭圆状,表面有纹理,且粗糙。蓝光条件下MG132处理的菌丝体,菌丝较直,表面粗糙,菌丝整体变得更细,菌丝断裂较多;分生孢子呈不规则形状,表面纹理更深,粗糙有褶皱。此外,MG132可导致蛹虫草子实体畸形生长。结果表明,蓝光和MG132均可以影响蛹虫草的形态变化。     

Two different stages of epidermal growth factor (EGF) receptor endocytosis are sensitive to free ubiquitin depletion produced by proteasome inhibitor MG132

Numerous studies implicate proteasomes in the regulation of EGF receptor (EGFR) endocytosis on the basis of the ability of inhibitors to decrease EGFR degradation, but the exact mechanisms remain obscure. We demonstrated that EGFR itself is not a direct target for proteasome, since it is delivered to lysosomes intact. Evidence is presented that the inhibitory effect of MG132 on EGF degradation is due mostly to free ubiquitin depletion resultant from the suppression of proteasomal functioning by MG132. By subcellular fractionation, we show two MG132-sensitive steps in the EGFR degradation pathway: sorting from early (EE) to late (LE) endosomes, and late stage of LE maturation. MG132 treatment resulted in stabilization of EGFR tyrosine phosphorylation and its association with c-Cbl. Nevertheless, ubiquitination of EGFR at late stages of endocytosis was significantly lower than that in control cells. Highly ubiquitinated forms of EGFR demonstrated more sensitivity to MG132 treatment.     

Induction and attenuation of neuronal apoptosis by proteasome inhibitors in murine cortical cell cultures

Evidence has accumulated showing that pharmacological inhibition of proteasome activity can both induce and prevent neuronal apoptosis. We tested the hypothesis that these paradoxical effects of proteasome inhibitors depend on the degree of reduced proteasome activity and investigated underlying mechanisms. Murine cortical cell cultures exposed to 0.1 microM MG132 underwent widespread neuronal apoptosis and showed partial inhibition of proteasome activity down to 30-50%. Interestingly, administration of 1-10 microM MG132 almost completely blocked proteasome activity but resulted in reduced neuronal apoptosis. Similar results were produced in cortical cultures exposed to other proteasome inhibitors, proteasome inhibitor I and lactacystin. Administration of 0.1 microM MG132 led to activation of a mitochondria-dependent apoptotic signaling cascade involving cytochrome c, caspase-9, caspase-3 and degradation of tau protein; such activation was markedly reduced with 10 microM MG132. High doses of MG132 prevented the degradation of inhibitor of apoptosis proteins (IAPs) cIAP and X chromosome-linked IAP, suggesting that complete blockade of proteasome activity interferes with progression of apoptosis. In support of this, addition of high doses of proteasome inhibitors attenuated apoptosis of cortical neurons deprived of serum. Taken together, the present results indicate that inhibition of proteasome activity can induce or prevent neuronal cell apoptosis through regulation of mitochondria-mediated apoptotic pathways and IAPs.     

Effects of oxidative stress on the Dolichol content of isolated rat liver cells

Dolichol, a long-chain polyisoprenoid broadly distributed in all tissues and cellular membranes with unknown function(s), might have a role in free radical metabolism [it accumulates in older tissues and decreases after CCl₄ (in liver) or phenylhydrazine (in spleen and liver) administration]. The effects of the NADPH-ADP-Fe system on Dolichol levels in isolated hepatocytes were explored and the time-course of changes was compared with the release of MDA in the incubation medium and the decrease in CoQ 9 and 10 and Vitamin E levels. Results showed that the system increased lipid peroxidation and decreased Dolichol and CoQ levels in_parallel fashions and lowered Vitamin E levels with shorter latency. Meanwhile, no increase in dead cells and no Dolichol release in the medium were detected. In conclusion, an increase in oxidative stress possibly caused a rapid degradation of dolichol by the same (unknown) mechanism responsible for the breakdown of_Ubiquinone isoprenoid chains.     

Effects of oxidative stress on the Dolichol content of isolated rat liver cells

Dolichol, a long-chain polyisoprenoid broadly distributed in all tissues and cellular membranes with unknown function(s), might have a role in free radical metabolism [it accumulates in older tissues and decreases after CCl₄ (in liver) or phenylhydrazine (in spleen and liver) administration]. The effects of the NADPH-ADP-Fe system on Dolichol levels in isolated hepatocytes were explored and the time-course of changes was compared with the release of MDA in the incubation medium and the decrease in CoQ 9 and 10 and Vitamin E levels. Results showed that the system increased lipid peroxidation and decreased Dolichol and CoQ levels in_parallel fashions and lowered Vitamin E levels with shorter latency. Meanwhile, no increase in dead cells and no Dolichol release in the medium were detected. In conclusion, an increase in oxidative stress possibly caused a rapid degradation of dolichol by the same (unknown) mechanism responsible for the breakdown of_Ubiquinone isoprenoid chains.     

Melatonin reduces protein and lipid oxidative damage induced by homocysteine in rat brain homogenates

Numerous data indicate that hyperhomocysteinemia is a risk factor for cardio- and cerebrovascular diseases. At least in part, homocysteine (HCY) impairs cerebrovascular function because it generates large numbers of free radicals. Since melatonin is a well-known antioxidant, which reduces oxidative stress and decreases HCY concentrations in plasma, the aim of this study was to investigate the effect of melatonin in preventing HCY-induced protein and lipid oxidation in rat brain homogenates. Brain homogenates were obtained from Sprague-Dawley rats and were incubated with or without HCY (0.01-5 mM) or melatonin (0.01-3 mM). Carbonyl content of proteins, and malondialdehyde (MDA) and 4-hydroxyalkenals (4-HDA) concentrations in the brain homogenates were used as an index of protein and lipid oxidation, respectively. Under the experimental conditions used, the addition of HCY (0.01-5 mM) to the homogenates enhanced carbonyl protein and MDA+4-HDA formation. Melatonin reduced, in a concentration-dependent manner, protein and lipid oxidation due to HCY in the brain homogenates. These data suggest that preserving proteins from oxidative insults is an additional mechanism by which melatonin may act as an agent in potentially decreasing cardiovascular and cerebrovascular diseases related to hyperhomocysteinemia.     

蓝光和蛋白酶体抑制剂MG132处理对蛹虫草Cmfrq、Cmwc-1和Cmwc-2转录水平的影响

生物钟的节律振荡器主要成分之间的关系构成了转录-翻译负反馈环,并以此调控生物体的生理生化反应和生长发育等.以不同时间的蓝光照射和蛋白酶体抑制剂MG132处理蛹虫草菌丝体,通过实时荧光PCR分析其中节律振荡器主要成分的3个基因Cmfrq、Cmwc-1和Cmwc-2转录水平变化,以期确定3个基因在蛹虫草中的相互关系和变化规...     

Antioxidant activity of fluoxetine: Studies in mice melanoma model

In vivo effects of the antidepressant fluoxetine on spleen antioxidant status of C57BL/6 mice were studied using a melanoma experimental model. After a 14‐day treatment with fluoxetine (10 mg kg^?1 day^?1, i.p.), the endogenous antioxidant non‐enzyme (glutathione) and enzyme (superoxide dismutase (SOD) and glutathione peroxidase (GPx)) defense systems in spleen of healthy animals were not changed; the lipid peroxidation (LP) was also unchanged. When B16F10 melanoma cells were introduced in C57BL/6 mice 2 h before fluoxetine treatment, a drug‐protective effect against the melanoma‐induced oxidative changes (increased LP and decreased total glutathione (GSH)‐level, as well as antioxidant enzyme activities) in spleen was observed. Fluoxetine dose‐dependently reduced the amounts of free oxygen radicals (hydroxyl and superoxide anion radicals), generated in chemical systems. Taken together, the present results suggest that fluoxetine, acting as antioxidant, prevents from melanoma‐induced oxidative changes in mice spleen. Copyright © 2010 John Wiley & Sons, Ltd.     

Role of endogenous and exogenous antioxidants in the defence against functional damage and lipid peroxidation in rat liver mitochondria

Mitochondria are cellular organelles where the generation of reactive oxygen species may be high. They are, however, effectively protected by their high capacities of antioxidative systems, as enzymes and either water or lipid soluble low molecular weight antioxidants.These antioxidative defence systems can be effectively regenerated after or during an oxidative stress as long as the mitochondria are in an energized state. Energization of mitochondria mainly depends on the availability of suitable respiratory substrates which can provide hydrogen for the reduction of either the glutathione- or -tocopherol-system, since GSH is regenerated by glutathione reductase with the substrate NADPH and the -tocopheroxyl-radical likely by reduced coenzyme Q. It was shown that mitochondria do not undergo damages as long as they can keep a high energy state. The delicate balance between prooxidative/antioxidative activities can be shifted towards oxidation, if experimentally prooxidants were added. After exhaustion of the antioxidative defence systems damages of rnitochondrial functions become expressed followed by membrane injuries along with the oxidation and degradation of mitochondrial lipids and proteins leading finally to the total degradation of the mitoc hondria.Extramitochondrial antioxidants may assist the mitochondrial antioxidative defence systems in a complex way, whereby particularly ascorbic acid can act both as prooxidant and as antioxidant. (Mol Cell Biochem 174: 199–205, 1997)