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ABSTRACT: Much recent discussion about the origin of Parkinsonian symptoms has centered around the idea that they arise with the increase of beta frequency waves in the EEG. This activity may be closely related to an oscillation between subthalamic nucleus (STN) and globus pallidus. Since STN is the target of deep brain stimulation, it had been assumed that its action is on the nucleus itself. By means of simultaneous recordings of the firing activities from populations of neurons and the local field potentials in the motor cortex of freely moving Parkinsonian rats, this study casts doubt on this assumption. Instead, we found evidence that the corrective action is upon the cortex, where stochastic antidromic spikes originating from the STN directly modify the firing probability of the corticofugal projection neurons, destroy the dominance of beta rhythm, and thus restore motor control to the subjects, be they patients or rodents.
Neuron 12/2012; 76(5):1030-1041. · 14.74 Impact Factor
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ABSTRACT: The mechanism by which hepcidin controls cellular iron release protein ferroportin 1 (Fpn1) in macrophages has been well established. However, little is known about the effects of hepcidin on cellular iron uptake proteins. Here, we demonstrated for the first time that hepcidin can significantly inhibit the expression of transferrin receptor 1 (TfR1) and divalent metal transporter 1 in addition to Fpn1, and therefore reduce transferrin-bound iron and non-transferrin-bound iron uptake and also iron release in J774 macrophages. Analysis of mechanisms using the iron-depleted cells showed that hepcidin has a direct inhibitory effect on all iron transport proteins we examined. Further studies demonstrated that the down-regulation of TfR1 induced by hepcidin is associated with cyclic adenosine monophosphate (cAMP) and protein kinase A (PKA), probably being mediated by the cAMP-PKA pathway in J774 macrophages.
The Journal of nutritional biochemistry 05/2012; · 4.29 Impact Factor
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ABSTRACT: Ligustilide, the main lipophilic component of Danggui, has been reported to protect the brain against ischaemic injury. However, the mechanisms are unknown. Here, we investigated the roles of erythropoietin (EPO) and the stress-induced protein RTP801 in neuroprotection provided by ligustilide against ischaemia-reperfusion (I/R) damage to the brain.
The efficacy of ligustilide against I/R damage was assessed by neurological deficit, infarct volume and cell viability, using the middle cerebral artery occlusion model in rats in vivo and rat cultured neurons in vitro. EPO and RTP801 were analysed by Western blot. Over-expression of RTP801 was achieved by transfection of an expression plasmid.
Ligustilide decreased the neurological deficit score, infarct volume and RTP801 expression and increased EPO transcription in I/R rats, and increased cell viability and EPO and decreased LDH release and RTP801 in I/R neurons. Also, ligustilide increased ERK phosphorylation (p-ERK). The positive effects of ligustilide on p-ERK, cell viability and EPO were blocked by PD98059, but not LY294002 and SB203580. In addition, transfection of SH-SY5Y cells with RTP801 plasmid increased RTP801 and LDH release, while ligustilide inhibited the effects of transfection on RTP801 expression and also increased cell viability.
Ligustilide exerts neuroprotective effects against I/R injury by promoting EPO transcription via an ERK signalling pathway and inhibiting RTP801 expression, This compound could be developed into a therapeutic agent to prevent and treat ischaemic disorders.
British Journal of Pharmacology 03/2011; 164(2):332-43. · 4.41 Impact Factor
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ABSTRACT: Hepcidin, an iron-regulatory hormone, plays a central role in iron homeostasis in peripheral tissues. The widespread distribution of hepcidin in the brain implies that the hormone may be essential for brain iron homeostasis. Here, we investigated the effects of hepcidin on the expression of iron uptake proteins, including transferrin receptor 1 (TfR1) and divalent metal transporter1 (DMT1) and the release protein ferroportin1 (Fpn1) in the cultured astrocytes. The effects of hepcidin on iron uptake, including transferrin-bound iron (Tf-Fe) and non-transferrin-bound iron (NTBI), and iron release were also studied. Our results demonstrated that astrocytes, when treated with hepcidin peptide or infected with hepcidin expression adenovirus (ad-hepcidin), showed a significant ability in reducing iron uptake (both Tf-Fe and NTBI), and iron release, which were accompanied by decreased expressions of TfR1, DMT1, and Fpn1. Moreover, we found that the effect of hepcidin in reducing TfR1 expression, which is dependent on the cyclic AMP-protein kinase A pathway, was the primary and dominant event. In conclusion, our results demonstrated that hepcidin controlled iron uptake and release by regulating expression of iron transport proteins. The findings also implied the existence of a novel hepcidin-receptor on the membrane of astrocytes.
Glia 03/2011; 59(6):936-45. · 4.82 Impact Factor
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ABSTRACT: Recent studies provide solid evidence for the importance to delineate the co-relationship between preconditioning stimuli and therapeutic efficacy of drugs commonly used in clinic. However, very little is known about this important topic. In the present study, we investigated the effects of hyperthermia on the protective role of ginkgolides on astrocytes against ischemia/reperfusion (I/R) injury and also evaluated the effects of the timing of co-treatment of hyperthermia with ginkgolides on astrocytes against the I/R injury. We demonstrated that there is a synergistic action between hyperthermic and pharmacological preconditioning to protect astrocytes against the I/R injury. Our findings also showed that astrocytes have completely different responses to the treatment with hyperthermia or ginkgolides alone or co-treatment together at different stages of the I/R process. Hyperthermic preconditioning before the I/R can protect astrocytes against the I/R injury. However, if treated in the ischemia and reperfusion stage, hyperthermia exacerbates the cell injury and significantly attenuates the protective effectiveness of ginkgolides. These findings imply that the timing of treatment with hypothermia and/or ginkgolides is one of the key factors to determine their protective effects on the cells against the I/R injury.
Neurochemical Research 02/2011; 36(2):312-8. · 2.24 Impact Factor
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ABSTRACT: To address whether hepcidin functions in bone metabolism.
This study was carried out in the Laboratory of Radiation Medicine and Public Health of Soochow University, and the Laboratory of the Second Affiliated Hospital of Soochow University, Suzhou, China, from September 2009 to July 2010. The positive expression of ferroportin-1 (Fpn-1) was detected by reverse transcriptase-polymerase chain reaction. After the treatment with distilled water (control group) and hepcidin (25noml/L, 50noml/L, 100noml/L), the fluorescence intensity related to intracellular iron concentration of a human fetal osteoblast cell line (hFOB 1.19) was measured by a confocal laser scanning microscope. A 3-(4,5- dimethylthiazol-2-yl) -2-5-diphenyltetrazolium bromide assay, and Von Kossa staining was performed to evaluate cell proliferation and mineralization in cultured hFOB 1.19 cells.
This study revealed a high level expression of Fpn-1 in hFOB 1.19. On the basis of which, it was found that 25noml/L, 50noml/L, 100noml/L hepcidin could promote the fluorescence intensity related to intracellular iron concentration and mineralization in hFOB 1.19 in a dose-dependent manner (p<0.05), but hepcidin had no effect on FOB 1.19 proliferation (p>0.05).
The hepcidin-ferroportin signal pathway may function in the osteoblast cell line of hFOB 1.19 cells. It is also suggested that cross-talk between iron and calcium homeostasis may play a role in bone metabolism in responding to hepcidin activation.
Saudi medical journal 12/2010; 31(12):1303-8. · 0.52 Impact Factor
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ABSTRACT: It has been demonstrated that hypoxia-inducible factor-1 alpha (HIF-1 alpha) mediates ischemic tolerance induced by hypoxia/ischemia or pharmacological preconditioning. In addition, preconditioning stimuli can be cross-tolerant, safeguarding against other types of injury. We therefore hypothesized HIF-1 alpha might also be associated with ischemic tolerance induced by hyperthermic preconditioning. In the present study, we demonstrated for the first time that 6 h of hyperthermia (38°C or 40°C) could induce a characteristic "reactive" morphology and a significant increase in the expression of bystin in astrocytes. We also showed that pre-treatment with 6 h of hyperthermia resulted in a significant increase in cell viability and a remarkable decrease in lactate dehydrogenase (LDH) release and apoptosis development in the astrocytes that were exposed to 24 h of ischemia and a subsequent 24 h of reperfusion. Analysis of mechanisms showed that hyperthermia could lead to a significant increase in HIF-1 alpha expression and also the HIF-1 binding activity in the ischemia/reperfusion astrocytes. The data provide evidence to our hypothesis that the up-regulation of HIF-1 alpha is associated with the protective effects of hyperthermic preconditioning on astrocytes against ischemia/reperfusion injury.
Biochimica et Biophysica Acta 11/2010; 1802(11):1048-53. · 4.66 Impact Factor
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ABSTRACT: The relationship between the expression of mitochondrial voltage-dependent anion channels (VDACs) and the protective effects of Myrica rubra Sieb. Et Zucc fruit extract (MCE) against carbon tetrachloride (CCl(4))-induced liver damage was investigated. Pretreatment with 50 mg kg(-1), 150 mg kg(-1) or 450 mg kg(-1) MCE significantly blocked the CCl(4)-induced increase in both serum aspartate aminotransferase (sAST) and serum alanine aminotransferase (sALT) levels in mice (P < .05 or .01 versus CCl(4) group). Ultrastructural observations of decreased nuclear condensation, ameliorated mitochondrial fragmentation of the cristae and less lipid deposition by an electron microscope confirmed the hepatoprotection. The mitochondrial membrane potential dropped from -191.94 ± 8.84 mV to -132.06 ± 12.26 mV (P < .01) after the mice had been treated with CCl(4). MCE attenuated CCl(4)-induced mitochondrial membrane potential dissipation in a dose-dependent manner. At a dose of 150 or 450 mg kg(-1) of MCE, the mitochondrial membrane potentials were restored (P < .05). Pretreatment with MCE also prevented the elevation of intra-mitochondrial free calcium as observed in the liver of the CCl(4)-insulted mice (P < .01 versus CCl(4) group). In addition, MCE treatment (50-450 mg kg(-1)) significantly increased both transcription and translation of VDAC inhibited by CCl(4). The above data suggest that MCE mitigates the damage to liver mitochondria induced by CCl(4), possibly through the regulation of mitochondrial VDAC, one of the most important proteins in the mitochondrial outer membrane.
Evidence-based Complementary and Alternative Medicine 12/2009; 2011:518302. · 4.77 Impact Factor
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ABSTRACT: Primary astrocyte cultures are the most commonly used in vitro model for neurobiological studies. We speculated that different protocols might induce differences not only in the percentage of astrocytes but also in their biological characteristics. In this study, we investigated the effects of four major protocols on the purity of astrocytes, cell viability, expression of glial fibrillary acidic protein (GFAP) and bystin of cultured astrocytes using MTT assay, immunocytochemical staining, and Western blot analysis. We demonstrated that the purity of astrocytes (98.9%) generated by the subculture (SC) procedure is significantly higher than those generated by primary culture (PC), shaken once culture (SK-1) or shaken twice culture (SK-2). We also showed that expressions of GFAP and bystin in astrocytes that are purified by the SK-2 or SK-1 procedures are significantly higher than those in astrocytes prepared by PC or SC. In addition, astrocytes cultured by SK-2 or SK-1 have a higher level of cell viabilities at most time points after ischemia compared with astrocytes cultured by PC or SC. These suggested that physical stimulation induced by "shaken" or culture operation might be able to activate astrocytes and implied that different procedures induce differences not only in the purity but also in the biological characteristics of astrocytes, such as the percentage of activated astrocytes, GFAP, and bystin expressions and responses to ischemia. A more detailed analysis about the effect of "culture protocol factor" on the biological characteristics of astrocytes is absolutely needed.
Journal of Cellular Biochemistry 11/2009; 109(1):30-7. · 2.87 Impact Factor
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ABSTRACT: It is unknown whether amyloid beta-protein 31-35 (Abeta[31-35]) has effects similar to Abeta[1-40] and Abeta[25-35] on the intracellular calcium ([Ca(2+)]i) to induce a disruption of calcium homeostasis. In this study, we investigated the effects of Abeta[31-35] on [Ca(2+)]i in primary cultured cortical neurons using real time fluorescence imaging technique and the Ca(2+)-sensitive dye Furo-2/AM. It was found that Abeta[31-35] (25 microM) could induce a significant elevation in [Ca(2+)]i and a decrease in the average latency in the cortical neurons in a dose-dependent manner. To examine whether the activation of group III mGluRs could block the changes in [Ca(2+)]i and protect neurons from apoptosis induced by Abeta[31-35], we then investigated the effects of L: -serine-O-phosphate (L: -SOP) and (R,S)-4-phosphonophenylglycine ((R,S)-PPG), the selective agonists of group III metabotropic glutamate receptors (mGluRs), on [Ca(2+)]i and apoptosis in neurons treated by Abeta[31-35]. We demonstrated that L: -SOP or (R,S)-PPG (100 microM) treatment suppresses significantly the elevation of [Ca(2+)]i induced by Abeta[31-35] and also induces an almost complete recovery of both the fluorescence intensity and apoptotic cells (%) to the control level in the neurons. These results suggest that Abeta[31-35] may be the shortest sequence responsible for the neuronal toxicity of Abeta protein and that the neuroprotective role of the activation of group III mGluRs from the apoptosis induced by Abeta[31-35] might be partly due to its ability to inhibit the increased calcium influx, which results from Abeta[31-35].
Neurotoxicity Research 09/2009; 16(2):174-83. · 3.51 Impact Factor
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ABSTRACT: The effect of superoxide dismutase (SOD) on membrane integrity and fluidity of the cultured neonatal rat cardiac myocytes in vitro was investigated under the condition of hypoxia and hypoxia/reoxygenation. Lactate dehydrogenase (LDH) concentration was used as the biochemical indicator for the loss of cell membrane integrity. Fluorescence polarization (FP), average microviscosity (N) and anisotropy (Ast), which are inversely proportional to the fluidity of cell membrane, were assayed. Cells were respectively exposed to hypoxia or hypoxia/reoxygenation for different periods of time in the absence or presence of SOD at various concentrations. Hypoxia alone or hypoxia/ reoxygenation brought injury to the cultured myocytes. This was demonstrated by changes in LDH and membrane fluidity. In the former LDH concentration gradually increased in a time-dependent manner and the values of FP, N and Asf were significantly increased. The changes in membrane integrity and fluidity induced by hypoxia or hypoxia/reoxygenation could be prevented by adding SOD to the culture medium. The results provide a direct evidence that SOD (740 u.ml-1, the effective dose) was effective in protecting cultured myocytes against the injury as well as an indirect evidence of free radical generation. Based on the results obtained from this study and the establishment of concept of optimally effective dose by Bernier and Omar et al, it was suggested that some previous reports, in which no evidence was found both in protective effect of SOD and in free radical generation by using only one dose in hypoxia/reoxygenation model, should be interpreted with caution.
07/2009; 27(1):13-21.
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ABSTRACT: The mechanisms underlying neurotoxicity caused by L-DOPA are not yet completely known. Based on recent findings, we speculated that the increased expression of divalent metal transporter 1 without iron-response element (DMT1-IRE) induced by L-DOPA might play a critical role in the development of L-DOPA neurotoxicity. To test this hypothesis, we investigated the effects of astrocyte-conditioned medium (ACM) and siRNA DMT-IRE on L-DOPA neurotoxicity in cortical neurons.
We demonstrated that neurons treated with L-DOPA have a significant dose-dependent decrease in neuronal viability (MTT Assay) and increase in iron content (using a graphite furnace atomic absorption spectrophotometer), DMT1-IRE expression (Western blot analysis) and ferrous iron (55Fe(II)) uptake. Neurons incubated in ACM with or without L-DOPA had no significant differences in their morphology, Hoechst-33342 staining or viability. Also, ACM significantly inhibited the effects of L-DOPA on neuronal iron content as well as DMT1-IRE expression. In addition, we demonstrated that infection of neurons with siRNA DMT-IRE led to a significant decrease in DMT1-IRE expression as well as L-DOPA neurotoxicity.
The up-regulation of DMT1-IRE and the increase in DMT1-IRE-mediated iron influx play a key role in L-DOPA neurotoxicity in cortical neurons.
PLoS ONE 02/2009; 4(2):e4593. · 4.09 Impact Factor
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Rui Cui,
Xiang-Lin Duan,
Gregory J Anderson,
Ya-Tiao Qiao,
Peng Yu, Zhong-Ming Qian,
Kunihiro Yoshida,
Shin'ichi Takeda,
Pei Guo,
Zhen-Ling Yang,
Yan-Zhong Chang
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ABSTRACT: Aceruloplasminemia is an autosomal recessive disorder caused by mutations in the ceruloplasmin (CP) gene. It is characterized by iron accumulation in the brain and in visceral organs. However, little is known about the mechanism of iron transport in these regions. Adult CP null (CP(-/-)) mice show increased iron deposition in several regions of brain, such as the cerebellum and brainstem. In this study, we investigated the expression of the ceruloplasmin homolog hephaestin (Heph) in the brain of CP(-/-) mice as a function of age. In the cerebral cortex and caudate putamen of 80-week-old CP(-/-) mice, the expression of Heph increased significantly whilst iron levels remain normal [Patel BN, Dunn RJ, Jeong SY, Zhu Q, Julien JP, David S. Ceruloplasmin regulates iron levels in the CNS and prevents free radical injury. J Neurosci 2002;22(15):6578-6], indicating that Heph might compensate for the loss of CP. In contrast, the substantia nigra and cerebellum of 80-week-old CP(-/-) mice accumulate iron but do not express high levels or significant decrease of Heph, suggesting that Heph does not replace CP in these regions. These data suggest that Heph may compensate for the loss of CP in a region-specific manner.
Journal of Trace Elements in Medicine and Biology 01/2009; 23(4):290-9. · 1.68 Impact Factor
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ABSTRACT: The cellular localization of DMT1 and its functional characterization suggest that DMT1 may play an important role in the physiological brain iron transport. But the regulation of DMT1 expression by iron in the brain is still not clearly understood. In this study, both the contents of ferric and ferrous iron as well as DMT1 expression were evaluated in CPu and SN after ICV of 500 microg iron dextran/rat/day for 3 or 7 days. It was found that the iron levels in CPu and SN were not altered obviously until ICV for 7 days. Immunohistochemistry results indicated that the expression of DMT1 (-IRE) in CPu and SN was not altered significantly after 3 days of ICV. Whereas the expression of DMT1 (-IRE) decreased significantly after 7 days of ICV when ferrous iron was increased significantly. Contrary to that of DMT1 (-IRE) in the same regions, there were no significant alterations in DMT1 (+IRE) expression in CPu and SN in spite of the existence of the altered iron levels, compared with that of control groups. The results demonstrate that DMT1 (-IRE) expression was correlated probably with brain iron levels; especially, its regulation was correlated with ferrous iron (not ferric iron) in CPu and SN in adult rats, compared with those of saline-injected control rats. The effect of ferrous iron on the expression of DMT1 (-IRE) in the brain also suggests that it might play a major physiological role in brain iron uptake and transport, but further studies are needed to clarify these issues.
The Anatomical Record Advances in Integrative Anatomy and Evolutionary Biology 01/2009; 292(2):225-33. · 1.47 Impact Factor
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ABSTRACT: Iron plays a key pathophysiological role in a number of cardiac diseases. Studies on the mechanisms of heart iron homeostasis are therefore crucial for understanding the causes of excessive heart iron. In addition to iron uptake, cellular iron balance in the heart also depends on iron export. We provided evidence for the existence of iron exporter ferroportin 1 (Fpn1) in the heart in a recent study. The presence of hepcidin, a recently discovered iron regulatory hormone, was also confirmed in the heart recently. Based on these findings and the inhibiting role of hepcidin on Fpn1 in other tissues, we speculated that hepcidin might be able to bind with, internalize and degrade Fpn1 and then decrease iron export in heart cells, leading to an abnormal increase in heart iron and iron mediated cell injury. We therefore investigated the effects of hepcidin on the contents of Fpn1 and iron release in H9C2 cardiomyocyte cell line. We demonstrated that hepcidin has the ability to reduce Fpn1 content as well as iron release in this cell. The similar regulation patterns of hepcidin on the Fpn1 and iron release suggested that the decreased iron release resulted from the decreased content of Fpn1 induced by hepcidin. We also found that hepcidin has no significant effects on ceruloplasmin (CP) and hephaestin (Heph)--two proteins required for iron release from mammalian cells. The data imply that Fpn1, rather than Heph and CP, is the limited factor in the regulation of iron release from heart cells under physiological conditions.
The Journal of nutritional biochemistry 12/2008; 20(11):860-5. · 4.29 Impact Factor
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ABSTRACT: Hepcidin, a principle regulator of iron metabolism, is synthesized by the liver. Contradictory results have been reported on the regulation of hepcidin expression in response to serum transferrin saturation and liver iron content. In the present study, we explore the expression of murine hepcidin mRNA and further analyze the relationship between liver hepcidin mRNA expression, liver iron stores, and serum iron level utilizing ceruloplasmin gene knockout mice. We find that hepcidin expression correlates significantly with serum transferrin saturation, whereas there is a negative correlation of hepcidin expression with liver tissue iron level.
Peptides 11/2008; 30(2):262-6. · 2.43 Impact Factor
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ABSTRACT: Previous studies showed that nerve growth factor (NGF) exerts protective effects on cultured neurons against various kinds of damage. However, a recent publication reported that exposure of NGF-treated PC12 cells to physical hypoxia resulted in a higher cell death rate when compared to the untreated controls. In the present study, we therefore investigated the effects of NGF on the hypoxic cortical neurons induced by potassium cyanide (KCN). We demonstrated that NGF at a higher concentration can significantly increase neuronal viability, decrease the release of lactate dehydrogenase and improve cellular morphology in the hypoxic cortical neurons. However, we also found that pretreatment of NGF was not able to completely revise the decreased cell viability and the increased leakage of lactate dehydrogenase (LDH) induced by KCN, although the indexes in the neurons treated with NGF and KCN were significantly higher than those in the neurons treated with KCN only. Analysis of the data showed that the incomplete revision of NGF should be not due to the dosage of NGF we used. It might be induced by the inability of NGF to inhibit all injury pathways induced by potassium cyanide.
Neurochemical Research 06/2008; 33(5):784-9. · 2.24 Impact Factor
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ABSTRACT: Recycled iron from reticuloendothelial macrophages to erythroid precursors is important to maintain the iron homeostasis. However, the molecular mechanisms underlying iron homeostasis in macrophages are poorly understood. In this study, male Sprague-Dawley rats were treated with recombinant human erythropoietin (rHuEpo, 500 IU/day, s.c.) for 3 days. At the fifth day, peritoneal exudate macrophages were harvested, and then (55)Fe uptake and release were measured by liquid scintillation counting method. The expression of divalent metal transporter 1 (DMT1) and ferroportin 1 (FPN1) in peritoneal exudate macrophages was detected by RT-PCR and Western blot. In order to exclude the direct effect of rHuEpo on macrophages, the parallel experiments were performed with incubation normal peritoneal exudate macrophages with rHuEpo (2 IU/ml). Our results showed rHuEpo injection reduced the peritoneal exudate macrophages iron retention. The uptake of Fe(II) was decreased via the suppression of DMT1 (+IRE) expression and the release of Fe(II) was increased with increasing the expression of FPN1 in macrophages. Moreover, the expression of HAMP mRNA was four times lower in rHuEpo-treated liver of rats than control group (CG). HAMP mRNA expression was increased; the synthesis of DMT1 had no significant change, whereas the FPN1 was decreased in normal peritoneal exudate macrophages after treatment with rHuEpo in vitro. We conclude that hepcidin may play a major, causative role in the change of FPN1 synthesis and that decreased the iron retention in macrophages of rHuEpo-treated rats.
Journal of Cellular Biochemistry 06/2008; 104(2):629-41. · 2.87 Impact Factor
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ABSTRACT: This study aims to investigate the roles of the protein kinase A (PKA)- and caspase-dependent pathways in amyloid beta-peptide 31-35 (Abeta[31-35])-induced apoptosis, and the mechanisms of neuroprotection by group III metabotropic glutamate receptor (mGluR) activation against apoptosis induced by Abeta[31-35] in cortical neurons. We demonstrated that Abeta[31-35] induces neuronal apoptosis as well as a significant increase in caspase-3, -8 and -9. Activation of group III mGluRs by l-serine-O-phosphate and (R,S)-4-phosphonophenylglycine (two group III mGluR agonists), which attenuate the effects of Abeta[31-35], provides neuroprotection to the cortical neurons subjected to Abeta[31-35]. We also showed that Rp-cAMP, an inhibitor of cAMP-dependent PKA, has the ability to protect neurons from Abeta[31-35]-induced apoptosis and to reverse almost completely the effects of Abeta[31-35] on the activities of caspase-3. Further, we found that Sp-cAMP, an activator of cAMP-dependent PKA, can significantly abolish the l-serine-O-phosphate- and (R,S)-4-phosphonophenylglycine-induced neuroprotection against apoptosis, and decrease caspase-3, -8 and -9 in the Abeta[31-35]-treated neurons. Our findings suggest that neuronal apoptosis induced by Abeta[31-35] is mediated by the PKA-dependent pathway as well as the caspase-dependent intrinsic and extrinsic apoptotic pathways. Activation of group III mGluRs protects neurons from Abeta[31-35]-induced apoptosis by blocking the caspase-dependent pathways. Inhibition of the PKA-dependent pathway might also protect neurons from Abeta[31-35]-induced apoptosis by blocking the caspase-dependent pathways. Taken together, our observations suggest that Abeta[31-35] might have the ability to activate PKA, which in turn activates the caspase-dependent intrinsic and extrinsic apoptotic pathways, inducing apoptosis in the cortical neurons.
Aging cell 02/2008; 7(1):47-57. · 7.55 Impact Factor
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ABSTRACT: Z-ligustilide (Z-LIG) is the primary lipophilic compound of the Chinese medicine Danggui (Radix Angelica sinensis). Previous studies demonstrated that Z-LIG had significant neuroprotective potential in both transient and permanent cerebral ischemia, possibly through antioxidant and anti-apoptotic mechanisms. The present study examined the mechanisms of Z-LIG on hydrogen peroxide (H(2)O(2))-induced injury in PC12 cells. Following exposure of the cells to H(2)O(2 )(500 microM), a significant reduction in cell survival and total antioxidant capacity (TAC), as well as increased intracellular reactive oxygen species (ROS), were observed. In addition, H(2)O(2 )treatment significantly upregulated Bax expression, cleaved-caspase 3, and cytosolic cytochrome-c, and decreased Bcl-2 protein levels. Pretreatment of the cells with Z-LIG (0.1, 1.0, 2.5, or 5.0 microg/ml) significantly attenuated H(2)O(2)-induced cell death, attenuated increased intracellular ROS levels, and decreased Bax expression, cleaved-caspase 3, and cytochrome-c. Further, Z-LIG improved cellular TAC and concentration-dependently upregulated Bcl-2 expression. These results demonstrate that Z-LIG has a pronounced protective effect against H(2)O(2)-induced cytotoxicity, at least partly through improving cellular antioxidant defense and inhibiting the mitochondrial apoptotic pathway. These findings suggest that Z-LIG may be useful in the treatment of neurodegenerative disorders in which oxidative stress and apoptosis are mainly implicated.
Experimental Brain Research 02/2008; 184(3):307-12. · 2.39 Impact Factor
