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1.
Polyphenol resveratrol (RSV) has been associated with Silent Information Regulator T1 (SIRT1) and AMP‐activated protein kinase (AMPK) metabolic stress sensors and probably responds to the intracellular energy status. Our aim here was to investigate the neuroprotective effects of RSV and its association with SIRT1 and AMPK signaling in recurrent ischemia models. In this study, elderly male Wistar rats received a combination of two mild transient middle cerebral artery occlusions (tMCAOs) as an in vivo recurrent ischemic model. Primary cultured cortical neuronal cells subjected to combined oxygen–glucose deprivation (OGD) were used as an in vitro recurrent ischemic model. RSV administration significantly reduced infarct volumes, improved behavioral deficits and protected neuronal cells from cell death in recurrent ischemic stroke models in vivo and in vitro. RSV treatments significantly increased the intracellular NAD+/NADH ratio, AMPK and SIRT1 activities, decreased energy assumption and restored cell energy ATP level. SIRT1 and AMPK inhibitors and specific small interfering RNA (siRNA) for SIRT1 and AMPK significantly abrogated the neuroprotection induced by RSV. AMPK‐siRNA and inhibitor decreased SIRT1 activities; however, SIRT1‐siRNA and inhibitor had no impact on phospho‐AMPK (p‐AMPK) levels. These results indicated that the neuroprotective effects of RSV increased the intracellular NAD+/NADH ratio as well as AMPK and SIRT1 activities, thereby reducing energy ATP requirements during ischemia. SIRT1 is a downstream target of p‐AMPK signaling induced by RSV in the recurrent ischemic stroke model.  相似文献   

2.
β‐Amyloid (Aβ) deposits and hyperphosphorylated tau aggregates are the chief hallmarks in the Alzheimer's disease (AD) brains, but the strategies for controlling these pathological events remain elusive. We hypothesized that CK2‐coupled SIRT1 activation stimulated by cilostazol suppresses tau acetylation (Ac‐tau) and tau phosphorylation (P‐tau) by inhibiting activation of P300 and GSK3β. Aβ was endogenously overproduced in N2a cells expressing human APP Swedish mutation (N2aSwe) by exposure to medium containing 1% fetal bovine serum for 24 hr. Increased Aβ accumulation was accompanied by increased Ac‐tau and P‐tau levels. Concomitantly, these cells showed increased P300 and GSK3β P‐Tyr216 expression; their expressions were significantly reduced by treatment with cilostazol (3–30 μM) and resveratrol (20 μM). Moreover, decreased expression of SIRT1 and its activity by Aβ were significantly reversed by cilostazol as by resveratrol. In addition, cilostazol strongly stimulated CK2α phosphorylation and its activity, and then stimulated SIRT1 phosphorylation. These effects were confirmed by using the pharmacological inhibitors KT5720 (1 μM, PKA inhibitor), TBCA (20 μM, inhibitor of CK2), and sirtinol (20 μM, SIRT1 inhibitor) as well as by SIRT1 gene silencing and overexpression techniques. In conclusion, increased cAMP‐dependent protein kinase‐linked CK2/SIRT1 expression by cilostazol can be a therapeutic strategy to suppress the tau‐related neurodegeneration in the AD brain. © 2013 Wiley Periodicals, Inc.  相似文献   

3.
Elevated homocysteine levels have been suggested to contribute to various pathological states of the brain. However, the basic mechanisms underlying homocysteine-induced neurotoxicity have not yet been fully elucidated. In the present series of experiments, we investigated the effect of homocysteine on mRNA levels of genes coding for cytoplasmic- or endoplasmic reticulum-resident stress proteins. Primary neuronal cell cultures were exposed to different homocysteine levels for 1-24 h. Cell injury was evaluated using the MTT assay, protein synthesis was studied by measuring the incorporation of L-[4,5-3H]leucine into proteins, mRNA levels of hsp70, gadd153, grp78, and grp94 were evaluated by quantitative PCR, and changes in protein levels of hsp70, grp78 and grp94 were analyzed by immunoblotting. Exposure of cells to 5 or 10 mM homocysteine for 24 h induced marked cell injury (decrease of viability to 58 or 45% of control respectively). After 6 h treatment, gadd153, grp78 and grp94 mRNA levels increased markedly, but only when cells were exposed to levels of homocysteine high enough to induce cell injury. In addition, hsp70 mRNA levels and protein synthesis were significantly reduced. At earlier (1 or 3 h) or later (12 or 24 h) time intervals, homocysteine exposure induced a marked increase in mRNA levels of all genes studied. GRP78 and GRP94 protein levels were increased in cells exposed to 5 mM homocysteine for 24 h but not in cells exposed to 10 mM homocysteine. HSP70 protein levels, in contrast, were decreased in cells exposed to homocysteine for different periods. The expression of genes coding for ER-resident stress proteins is specifically activated under conditions of ER stress. The close relationship between the extent of cell injury and increase in grp78 mRNA levels suggests that ER dysfunction may contribute to the pathological process. The results imply that the ER is an intracellular target of homocysteine toxicity.  相似文献   

4.
Multiple treatments with L‐3,4‐dihydroxyphenylalanine (L‐DOPA; 20 µM) induce neurite‐like outgrowth and reduce dopamine biosynthesis in rat adrenal pheochromocytoma (PC) 12 cells. We therefore investigated the effects of multiple treatments with L‐DOPA (MT‐LD) on cell survival and death over a duration of 6 days by using PC12 cells and embryonic rat midbrain primary cell cultures. MT‐LD (10 and 20 µM) decreased cell viability, and both types of cells advanced to the differentiation process at 4–6 days. MT‐LD induced cyclic adenosine monophosphate (cAMP)‐dependent protein kinase A (PKA) phosphorylation and exchange protein activation by cAMP (Epac) expression at 1–3 days, which led to transient extracellular signal‐regulated kinase (ERK1/2) phosphorylation in both cells. In these states, MT‐LD activated cAMP‐response element binding protein (CREB; Ser133) and tyrosine hydroxylase (Ser40) phosphorylation in PC12 cells, which led to an increase in intracellular dopamine levels. In contrast, MT‐LD induced prolonged Epac expression at 4–5 days in both cells, which led to sustained ERK1/2 phosphorylation. In these states, the dopamine levels were decreased in PC12 cells. In addition, MT‐LD induced c‐Jun N‐terminal kinase1/2 phosphorylation and cleaved caspase‐3 expression at 4–6 days in both cells. These results suggest that MT‐LD maintains cell survival via PKA‐transient ERK1/2 activation, which stimulates dopamine biosynthesis. In contrast, at the later time period, MT‐LD induces differentiation via both prolonged Epac and sustained ERK1/2 activation, which subsequently leads to the cell death process. Our data demonstrate that L‐DOPA can cause neurotoxicity by modulating the Epac‐ERK pathways in neuronal and PC12 cells. © 2014 Wiley Periodicals, Inc.  相似文献   

5.
Resveratrol is a naturally occurring polyphenolic compound associated with beneficial effects on aging, metabolic disorders, inflammation and cancer in animal models and resveratrol is currently being tested in numerous clinical trials. Resveratrol may exert these effects by targeting several key metabolic sensor/effector proteins, such as AMPK, SIRT1, and PGC-1α. Resveratrol has also received considerable attention recently for its potential neuroprotective effects in neurodegenerative disorders where AMPK, SIRT1 or PGC-1α may represent promising therapeutic targets. A recent study published in Experimental Neurology (Ho et al., 2010) examined the therapeutic potential of a micronised proprietary resveratrol formulation, SRT501 in the N171-82Q transgenic mouse model of Huntington's disease (HD). HD is a progressive and devastating genetic neurodegenerative disorder that is associated with downregulation of PGC-1α activity. The Ho et al. study found that SRT501 treatment did not lead to significant improvement in weight loss, motor performance, survival and striatal atrophy. However, other studies have reported neuroprotective effects of resveratrol and a distantly related polyphenol, fisetin, in HD models. HD has been associated with diabetes mellitus. Interestingly, evidence from the Ho et al. study suggests a resveratrol formulation induced beneficial anti-diabetic effect in N171-82Q mice. This commentary summarizes the pertinent outcomes from the Ho et al. study and discusses the further prospects of resveratrol and other polyphenols, including novel grape-derived polyphenols, in the treatment of HD and other neurodegenerative disorders.  相似文献   

6.
Quercetin, a strong free radical scavenger, is investigated for neuroprotective effects in a Neuro 2a cell line conditionally transfected with 16Q huntingtin (Htt) and 150Q Htt, which express the protein upon stimulation. Cells were protected from death by a 20‐µM dose of quercetin on the second day of Htt induction, but 30–100‐µM doses of the drug caused further toxicity in both 16Q and 150Q cells, as indicated by MTT assay and by significant reductions in the number of cells bearing neurites on the second day. A significant decrease in the number of cells containing aggregate was seen in induced 150Q cells treated with 20 µM but not for those treated with 40 or 50 µM quercetin up to 4 days of induction. Mutated Htt (mHtt)‐induced reduction in proteasomal activity of the ubiquitin‐proteasomal system (UPS) was significantly attenuated by 20 µM quercetin. However, neither mitochondrial membrane potential loss nor colocalization of 20S proteasome with mHtt aggregate was corrected by quercetin treatment. Our results imply that the neuroprotective effect of quercetin arises out of the upregulation of UPS activity, which causes a decrease in the number of mHtt aggregate‐harboring cells. The increased neurotoxicity could result from the continued association of mHtt with 20S proteasome and the failure of quercetin to correct mitochondrial membrane potential loss. These results suggest that, although quercetin at a low dose protects against mHtt‐mediated cell death, higher doses are toxic to the cells, clearly demarcating a narrow therapeutic window for this dietary flavonoid. © 2015 Wiley Periodicals, Inc.  相似文献   

7.
Brain microvascular endothelial cells play an essential role in maintaining blood–brain barrier (BBB) integrity, and disruption of the BBB aggravates the ischemic injury. CaMKK (α and β) is a major kinase activated by elevated intracellular calcium. Previously, we demonstrated that inhibition of CaMKK exacerbated outcomes, conversely, overexpression reduced brain injury after stroke in mice. Interestingly, CaMKK has been shown to activate a key endothelial protector, sirtuin 1 (SIRT1). We hypothesized that CaMKK protects brain endothelial cells via SIRT1 activation after stroke. In this study, Oxygen‐Glucose Deprivation (OGD) was performed in human brain microvascular endothelial cells. Stroke was induced by middle cerebral artery occlusion (MCAO) in male mice. Knockdown of CaMKK β using siRNA increased cell death following OGD. Inhibition of CaMKK β by STO‐609 significantly and selectively down‐regulated levels of phosphorylated SIRT1 after OGD. Changes in the downstream targets of SIRT1 were observed following STO‐609 treatment. The effect of STO‐609 on cell viability after OGD was absent, when SIRT1 was concurrently inhibited. We also demonstrated that STO‐609 increased endothelial expression of the pro‐inflammatory proteins ICAM‐1 and VCAM‐1 and inhibition of CaMKK exacerbated OGD‐induced leukocyte‐endothelial adhesion. Finally, intracerebroventricular injection of STO‐609 exacerbated endothelial apoptosis and reduced BBB integrity after 24‐hr reperfusion following MCAO in vivo. Collectively, these results demonstrated that CaMKK inhibition reduced endothelial cell viability, exacerbated inflammatory responses and aggravated BBB impairment after ischemia. CaMKK activation may attenuate ischemic brain injury via protection of the microvascular system and a reduction in the infiltration of pro‐inflammatory factors.  相似文献   

8.
Park KH  Choi NY  Koh SH  Park HH  Kim YS  Kim MJ  Lee SJ  Yu HJ  Lee KY  Lee YJ  Kim HT 《Neurotoxicology》2011,32(6):879-887
The neurotoxicity of L-3,4-dihydroxyphenylalanine (L-DOPA), one of the most important drugs for the treatment of Parkinson's disease, still remains controversial, although much more data on L-DOPA neurotoxicity have been presented. Considering the well known neuroprotective effects of erythropoietin (EPO), the inhibitory effects of EPO on L-DOPA neurotoxicity need to be evaluated. Neuronally differentiated PC12 (nPC12) cells were treated with different concentrations of L-DOPA and/or EPO for 24h. Cell viability was evaluated using trypan blue, 4',6-diamidino-2-phenylindole (DAPI) and TUNEL staining, and cell counting. Free radicals and intracellular signaling protein levels were measured with 2',7'-dichlorodihydrofluorescein diacetate (DCFH-DA) and Western blotting, respectively. L-DOPA reduced nPC12 cell viability at higher concentrations, but combined treatment with EPO and L-DOPA significantly restored cell viability. Free radicals and hydroxyl radical levels increased by L-DOPA were decreased after combined treatment of L-DOPA and EPO. Levels of survival-related intracellular signaling proteins decreased in nPC12 cells treated with 200 μM L-DOPA but increased significantly in cells treated with 200μM L-DOPA and 5 μM EPO. However, cleaved caspase-3, a death-related protein, increased in nPC12 cells treated with 200 μM L-DOPA but decreased significantly in cells treated with 200 μM L-DOPA and 5 μM EPO. Pretreatment with LY294002, a phosphatidylinositol 3-kinase inhibitor, prior to combined treatment with EPO and L-DOPA almost completely blocked the protective effects of EPO. These results indicate that EPO can prevent L-DOPA neurotoxicity by activating the PI3K pathway as well as reducing oxidative stress.  相似文献   

9.
Resveratrol interacts with the complex III of the respiratory chain, is a radical scavenger and also suppressor of radical formation in the mitochondria. It reduces the intracellular calcium levels in pre- and postsynaptic neurons and also may inhibit the pro-apoptotic factors in glutamate overflow that occurs, e.g. in excitotoxicity. In cell cultures, glutamate overflow leads to formation of free radicals and results in apoptosis. This increase of radical concentration is enhanced by influx of cations like iron or copper ions into the cell. In present study, the beneficial action of resveratrol was investigated in glutamate-affected dissociated cultures of mice mesencephalic primary cultures. On the 10th day in vitro, 5 mM of glutamate was administered for 15 min and the cultures were further maintained in medium containing 0, 0.01, 0.1 or 1 μM of resveratrol. Resveratrol reduced glutamate-induced damages. The number of dopaminergic neurons was increased and their morphology ameliorated when resveratrol followed glutamate treatment. A significant reduction of glutamate-induced radical formation in cultures treated with resveratrol corresponded with a considerable high antioxidative potential of this stilbene determined using the DPPH assay. In addition, ICP-OES was set up to measure the tissues’ copper and iron contents in organotypic cortical cultures of glutamate treated (0 or 30 μM) slices and those in which resveratrol (0, 0.01, 0.1 or 1 μM) was co-administered. Levels of copper were dose-dependently increased, and also the concentration of iron was higher in resveratrol-treated organotypic cultures. The hypothesis that resveratrol has beneficial actions against glutamate damages was verified.  相似文献   

10.
Resveratrol, a naturally occurring polyphenol, exhibits antioxidant, antiaging, and anticancer activity. Resveratrol has also been shown to inhibit tumor initiation, promotion, and progression in a variety of cell culture systems. Earlier, we showed that paraquat, a bipyridyl herbicide, triggers endoplasmic reticulum stress, cell dysfunction, and dopaminergic cell death. Due to its antioxidant activity, we assessed the ability of resveratrol to rescue cells from the toxic effects of paraquat. While resveratrol did not have any protective effect at low concentrations, it triggered endoplasmic reticulum (ER) stress-induced cell death at higher concentrations (50–250 μM). The present study was carried out to determine the mechanism by which resveratrol triggers ER stress and cell death in dopaminergic N27 cells. Our studies demonstrate that resveratrol triggers ER stress and cell dysfunction, caspase activation, p23 cleavage and inhibition of proteasomal activity in dopaminergic N27 cells. While over expression of uncleavable p23 was associated with decreased cell death, downregulation of p23 protein expression by siRNA resulted in enhancement of ER stress-induced cell death triggered by resveratrol indicating a protective role for the small co-chaperone p23 in dopaminergic cell death.  相似文献   

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