Serotonin Metabolism and Release in Frontal Cortex of Rats on a Vitamin E-Deficient Diet

Abstract: Rats were fed a control or vitamin E (all- rac -α-tocopheryl acetate)-deficient diet for 3 or 12 weeks. Serotonin (5-HT), 5-hydroxyindoleacetic acid (5-HIAA), tryptophan, and α-tocopherol concentrations were determined in the frontal cortex using HPLC. α-Tocopherol concentrations fell significantly to 27% of control values at 12 weeks. Tissue 5-HT, 5-HIAA, and tryptophan concentrations were not significantly altered by the vitamin E-deficient diet at either time point. In vivo microdialysis revealed normal basal and K⁺-stimulated concentrations of 5-HT and 5-HIAA, but extracellular concentrations of tryptophan were significantly decreased after 3 weeks on the vitamin E-deficient diet, which resulted in an increase in the tissue/extracellular ratio and suggested a change in compartmentation. However, after 12 weeks on the deficient diet these values had returned to normal. Results in general indicate that a prolonged and substantial depletion of brain vitamin E can occur without major disturbance of serotonergic function.     

"青春期"大鼠前额皮质内BDNF与trkB的表达

目的:探讨"青春期"大鼠前额皮质内BDNF与trkB的表达。方法:出生后35天大鼠作为"青春期"大鼠,出生后15天、75天大鼠分别作为幼年期与成年期对照,每组大鼠各6只,用ABC免疫组织化学方法与图像分析相结合技术检测前额皮质内BDNF与trkB免疫反应的强度和免疫阳性产物平均光密度值的变化。结果:各时间点大鼠前额皮质内均可见BDNF与trkB免疫阳性产物。35天组BDNF与trkB免疫反应最强,阳性产物平均光密度值最高,与其它两组相比差异有显著性(p<0.05)。结论:"青春期"大鼠前额皮质内BDNF与trkB高表达,提示在此时期内前额皮质对BDNF的需求最多。     

Increase of Lipid Hydroperoxides in Tissues of Vitamin E-Deficient Rats

The level of lipid hydroperoxides was determined by a newly developed method in rat tissues of vitamin E deficiency, which was a good in viuo model of enhanced radical reactions. In the heart, lung and kidney, the level of lipid hydroperoxides increased significantly as early as 4 weeks after feeding on a tocopherol-deficient diet compared with that of the control group. After 8 weeks of the deficiency, similar results were obtained. These results indicate that the lipid hydroperoxide is available as an extremely sensitive indicator of lipid peroxidation in these organs, because it takes several months to detect manifestations of the vitamin deficiency based on conventional indices.     

创伤后应激障碍大鼠海马与前额叶皮质中OREXIN受体的失调

目的:从食欲素(Orexin, ORX)系统挖掘创伤后应激障碍的神经生物学机制。方法:以单次延长刺激(single prolonged stimulation,SPS)法复制创伤后应激障碍(post traumatic stress disorder,PTSD)大鼠模型,以行为学结合血清中皮质酮和神经元特异性烯醇化酶进行模型评价,通过酶联免疫吸附试验(Elisa)分析大鼠血清与脑脊液中OREXIN水平,以实时荧光定量聚合酶链反应(RT-PCR)检测海马与前额叶皮质中的Orexin受体基因表达。结果:实验成功的复制了PTSD模型,与对照组相比,模型组大鼠血清中皮质酮和神经元特异性烯醇化酶的含量均极显著升高(P0.01),脑脊液中Orexin A、Orexin B的含量均显著升高(P0.01),海马和皮质中ORX1R与ORX2R均极显著下降(P0.01)。结论:PTSD大鼠的应激损伤与Orexin及其受体表达水平的变化密切相关。     

Low Selenium Diet Affects Monoamine Turnover Differentially in Substantia Nigra and Striatum

Abstract: Turnover of dopamine, noradrenaline. serotonin, and their metabolites has been measured in striatum and substantia nigra of adult female rats that were fed control or selenium-deficient diets for 15 days. In addition, the glutathione peroxidase activity has been studied. The most striking result was the increase of dopamine turnover (63%) and 3- methoxytyramine turnover (55%) in substantia nigra between control and experimental animals. On the other hand, no changes were found in the turnover rate of dopamine and its metabolites in the striatum. Likewise, no changes were found in noradrenaline turnover in substantia nigra. In the striatum, there was a significant increase of serotonin turnover versus no change for 5-hydroxy-3-indoleacetic acid. However, in the substantia nigra, serotonin turnover did not show significant changes, whereas 5-hydroxy-3-indoleacetic acid turnover decreased. At the same time, glutathione peroxidase activity significantly decreased in both structures after selenium-deficient diets. These results suggest that a selenium-deficient diet for a short period of time decreases brain protection. principally in the substantia nigra, against oxidative damage.     

Glutamatergic Control of Dopamine Release During Stress in the Rat Prefrontal Cortex

Abstract: In vivo microdialysis was used to assess the hypothesis that the stress-induced increase in dopamine release in the prefrontal cortex is mediated by stress-activated glutamate neurotransmission in this region. Local perfusion of an α-amino-3-hydroxy-5-methylisoxazole-4-propionate (AMPA)/kainate receptor antagonist, 6-cyano-7-nitroquinoxaline-2,3-dione, blocked the stress-induced increase in dopamine levels, whereas an NMDA receptor antagonist, 2-amino-5-phosphonopentanoic acid, at the dose tested, was not able to alter this response significantly. These data indicate that the effect of stress on dopamine release in the prefrontal cortex is mediated locally by activation of AMPA/kainate receptors, which modulate the release of dopamine in this region.     

Increased Receptor for Advanced Glycation Endproducts Immunocontent in the Cerebral Cortex of Vitamin A-Treated Rats

Vitamin A, beyond its biological role, is an alternative choice in treating some life threatening pathologies, for instance leukemia and immunodeficiency. On the other hand, vitamin A therapy at moderate to high doses has caused concern among public health researchers due to the toxicological aspect resulting from such habit. It has been described hepatotoxicity, cognitive disturbances and increased mortality rates among subjects ingesting increased levels of vitamin A daily. Then, based on the previously reported data, we investigated here receptor for advanced glycation endproducts (RAGE) immunocontent and oxidative damage levels in cerebral cortex of vitamin A-treated rats at clinical doses (1,000–9,000 IU/kg day⁻¹). RAGE immunocontent, as well as oxidative damage levels, were observed increased in cerebral cortex of vitamin A-treated rats. Whether increased RAGE levels exert negative effects during vitamin A supplementation it remains to be investigated, but it is very likely that deleterious consequences may arise from such alteration.     

Characterization of Excitatory Amino Acid Modulation of Dopamine Release in the Prefrontal Cortex of Conscious Rats

Abstract: The effect of various classes of excitatory amino acid agonists on the release of dopamine in the medial prefrontal cortex (PFC) of awake rats was examined using intracerebral microdialysis. Local infusion of 20 µ M α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA), through the microdialysis probe, produced a significant increase of more than twofold in extracellular levels of dopamine. Application of 100 µ M AMPA increased these levels nearly 15 fold. The AMPA/kainate receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) (50 µ M ) blocked the increase in dopamine release produced by 20 µ M AMPA. Local infusion of kainate at concentrations of 5 and 20 µ M increased dopamine release by nearly 150 and 500%, respectively. Local application of CNQX (50 µ M ) before 20 µ M kainate significantly attenuated the stimulatory effect of kainate on dopamine levels. In contrast to AMPA and kainate, infusion of N -methyl- d -aspartate (NMDA) at 20 or 100 µ M did not increase dopamine release. In fact, a trend toward a decrease in dopamine release was evident after 100 µ M NMDA. The present study indicates that the in vivo release of dopamine in the PFC is facilitated by AMPA and kainate receptors. This modulation is more profound than that previously reported in the basal ganglia. The lack of an excitatory effect of NMDA is in agreement with recent reports that the NMDA receptor may inhibit indirectly dopaminergic neurotransmission in the PFC.     

Sulfate Conjugation of Monoamines in Human Brain: Purification and Some Properties of an Arylamine Sulfotransferase from Cerebral Cortex

An arylamine sulfotransferase (PST-M) from human brain cortex that is involved in the formation of O-sulfate esters of monoamines has been purified 272-fold by ammonium sulfate fractionation, gel filtration, DEAE-cellulose ion-exchange chromatography, chromatofocussing, and hydroxyapatite chromatography. A molecular weight of 62,000, pK of pH 5.8, and an optimum pH for the reaction at 7.8-8.0 with respect to tyramines have been determined. This enzyme possesses an extremely high affinity for dopamine and m-tyramine based on the low Km values and is moderately active toward noradrenaline and p-tyramine. Serotonin is a poor substrate. In contrast, another sulfotransferase, PST-P, which has been separated from PST-M and partially purified, exhibited a very high affinity for phenol and nitrophenols but was inactive toward the amine sulfate acceptors. In the human brain the specific activity toward dopamine as well as the ratio of activity toward dopamine/phenol was considerably higher than those for rat, hog, and bovine brains.     

Effect of Sodium Selenite and Vitamin E on the Renal Cortex in Rats: An Ultrastructure Study

This study examined the use of vitamin E to alleviate toxic effects of sodium selenite. Adult male albino rats (n = 50) was divided into five groups. Group 1 was control, Groups 2 and 4 were treated with sodium selenite (2 mg/kg) for 2 and 4 weeks, respectively, Groups 3 and 5 were treated with sodium selenite (2 mg/kg) and vitamin E (100 mg/kg) for 2 and 4 weeks, respectively. Renal tissues were studied using anti-BCL2 and examined ultrastructurally. Positive Bax immunoreactivity was detected after 2 and more positive after 4 weeks and nearly all groups improved with co-administration of vitamin E. Ultrastructural study revealed lesions in Bowman's capsule and proximal convoluted tubules. The submicroscopic study revealed damage and necrosis of cortical structures after 2 and 4 weeks, respectively. After 4 weeks, cellular changes were seen, such as vacuolation and moderate degeneration of cells, widening of the urinary space scattered through the cortex with loss of cellular details, formation of apical buds, degeneration, and cellular rupture. Present findings disclosed an ameliorative effect of adding vitamin E to sodium selenite-induced changes in cortical tissues. Clinically, it is advised to add vitamin E to avoid selenium overdose hazards.     

Vitamin E Concentrations in the Brains and Some Selected Peripheral Tissues of Selenium-Deficient and Vitamin E-Deficient Mice

Abstract: Weanling male CD-1 mice were fed control, vitamin E-deficient or selenium-deficient diets for periods of 12 to 20 weeks. α-Tocopherol concentrations in plasma, liver, and testes, as well as in three specific areas in the brain (cerebral hemisphere, cerebellum, and medulla plus pons) were determined by high performance liquid chromatography. Significant concentrations of α-tocopherol were found in all brain samples from vitamin E-deficient animals long after the peripheral tissues were depleted, indicating that brain is more resistant to vitamin E deficiency than peripheral tissues. Cerebellar concentrations of α-tocopherol were consistently lower than those of cerebral hemisphere and medulla-pons. Further more, the cerebellar α-tocopherol concentration sustained a larger decline than the other two brain areas within 6 weeks of vitamin E deficiency treatment. These and other data suggest that cerebellum may be more susceptible to damage from vitamin E deficiency than other parts of the brain. Selenium deficiency did not affect brain a-tocopherol concentrations during the 12 weeks of the study.     

恒河猴大脑前额叶cDNA文库的构建

为筛选出与认知、记忆相关的脑部表达基因及基因家族,利用TRIzol试剂从恒河猴大脑前额叶组织抽提总RNA,再用纯化试剂盒从总RNA中成功纯化出mRNA。按照Stratagene公司的cDNASynthesisKit(200401)、ZAP-cDNASynthesisKit(200400)和ZAP-cDNAGigapackⅢGoldCloningKit(200450)三个试剂盒的操作说明,构建了恒河猴大脑前额叶组织的cDNA文库。文库总库容为2·0×106克隆;绝大多数的cDNA插入片段≥0·5kb,平均长度≈1·0kb;cDNA片段与噬菌体载体重组率为97·3%。文库各项指标均达要求,为克隆大脑PFC区表达基因、测定基因编码区序列、揭示具有多种剪切组合模式等提供了可靠资源,也为相关基因表达调控的研究提供了方便。     

Effects of Intranigral Substance P and Neurokinin A Injections on Extracellular Dopamine Levels Measured with Microdialysis in the Striatum and Frontoparietal Cortex of Rats

Extracellular levels of dopamine (DA) and its metabolite, 3,4-dihydroxyphenylacetic acid (DOPAC), in the striatum and frontoparietal (sensorimotor) cortex in halothane-anesthetized rats were analyzed simultaneously using in vivo microdialysis. Basal DA levels, measured from the microdialysis perfusate, were 6.4 +/- 0.8 nM (n = 15) in the striatum and 0.9 +/- 0.1 nM (n = 15) in the frontoparietal cortex. Subcutaneous injections of d-amphetamine (2 mg/kg) increased DA levels 10-fold in the striatum and fivefold in the cortex. Injections of substance P (0.07 nmol/0.2 microliters) into the substantia nigra pars reticulata (SNR) increased DA and DOPAC levels approximately 30% in the ipsilateral striatum and approximately 50% in the ipsilateral frontoparietal cortex. Injections of neurokinin A (0.09 nmol/0.2 microliter) into the SNR increased DA and DOPAC levels approximately 30% in the ipsilateral striatum but did not significantly affect DA levels in the ipsilateral frontoparietal cortex, although DOPAC levels were increased by approximately 50%. It is suggested that striatal and cortical DA release is regulated differently by nigral substance P and neurokinin A terminals.     

The Prefrontal Cortex Regulates the Basal Release of Dopamine in the Limbic Striatum: An Effect Mediated by Ventral Tegmental Area

Abstract: The present study examined whether the prefrontal cortex (PFC) exerts a tonic control over the basal release of dopamine in the limbic striatum and whether this control is mediated by glutamatergic afferents to the dopamine cell body or terminal regions. Using intracerebral microdialysis in freely moving rats, it was demonstrated that application of tetrodotoxin in the contralateral PFC significantly decreased the release of dopamine in the medial striatum. Conversely, blockade of the tonic inhibitory GABAergic input in the PFC with bicuculline increased the release of dopamine in the medial striatum. Application of excitatory amino acid receptor antagonists into the striatum, while bicuculline was perfused in the PFC, did not affect the bicuculline-evoked dopamine increase in the striatum. However, infusion of tetrodotoxin or excitatory amino acid receptor antagonists into the ventral tegmental area, a region containing dopamine cell bodies that project to the medial striatum, blocked the stimulation of striatal dopamine release induced by infusion of bicuculline into the PFC. These data demonstrate that the basal output of dopamine terminals in the medial striatum is under a tonic excitatory control of the PFC. Furthermore, this control occurs primarily through glutamatergic projections to the dopamine cell body area rather than the terminal regions.     

An Excitant Amino Acid Projection from the Medial Prefrontal Cortex to the Anterior Part of Nucleus Accumbens in the Rat

High-affinity uptake of neurotransmitter substrates in synaptosome-containing homogenates and tissue concentrations of amino acids were examined in subcortical areas 5-6 days after bilateral N-methyl-D-aspartate lesions confined to rat medial prefrontal cortex. D-[3H]Aspartate (32% of control) and [3H] gamma-aminobutyric acid ( [3H]GABA) (60% of control) uptakes were significantly reduced in medial prefrontal cortex, whereas [3H]choline (110% of control) uptake was unchanged, suggesting the production of axon-sparing lesions. The uptake of D-[3H]aspartate (76% of control), but not of [3H]GABA or [3H]choline, was significantly reduced in nucleus accumbens, with no concomitant reduction in amino acid concentrations. When examined in serial coronal sections, reduced D-[3H]aspartate uptake was confined to the most anterior 500 micron of nucleus accumbens (67% of contralateral sample). No significant reductions of uptake or amino acid concentrations were observed in caudate putamen or ventral tegmental area. These results suggest a role for glutamate or aspartate as neurotransmitters in projections from medial prefrontal cortex to anterior nucleus accumbens. Medial prefrontal cortex may represent the major excitatory cortical input to the nucleus accumbens.     

重度OSAS患者前额叶皮质及岛叶1H—MR波谱研究

目的：利用氢质子MRS（IH-MRS）探讨重度阻塞性呼吸睡眠暂停综合症（Severeobstructivesleepapneasyndrome,S-OSAS）患者前额叶皮质及岛叶脑代谢产物特征。方法：选择18例S-OSAS患者（S-OSAS组）和15名健康志愿者（HC组）行左侧前额叶皮质及岛叶1H-MRS检查,测量两组左侧前额叶皮质区及岛叶N-乙酰天冬氨酸／肌酸（NAA／Cr）、胆碱／肌酸（Cho／Cr）值。对患S-OSAS累计时间与前额叶皮质及岛叶NAA／Cr作直线相关分析。结果：与正常对照组相比,S-OSAS患者左侧前额叶皮质、岛叶NAA／Cr比值降低,分别为1．43±0．47、1．34±0．06,对照组分别为1．51±0．65、1．45±0．07;S-OSAS组患者左侧前额叶皮质、岛叶Cho／Cr分别为0．90±0．08、1．195：0．13,对照组分别为0．87±0．07、1．09±0．02,两组差异有统计学意义。前额叶皮质及岛叶代谢物NAA／Cr与患S-OSAS累计时间成负相关性（r值分别为-0．965、-0．955,P〈0．01）。结论：1H-MRS显示S-OSAS患者前额叶皮质及岛叶病理生理变化,从该区代谢物的改变反应出S-OSAS患者执行及情感功能的异常,其NAA/Cr改变程度与患S-OSAS累计时间相关。     

Fluoxetine Increases Extracellular Dopamine in the Prefrontal Cortex by a Mechanism Not Dependent on Serotonin

Fluoxetine at 10 and 25 mg/kg increased (167 and 205%, respectively) the extracellular dopamine concentration in the prefrontal cortex, whereas 25 (but not 10) mg/kg citalopram raised (216%) dialysate dopamine. No compound modified dialysate dopamine in the nucleus accumbens. The effect of 25 mg/kg of both compounds on cortical extracellular dopamine was not significantly affected by 300 mg/kg p-chlorophenylalanine (PCPA) (fluoxetine, saline, 235%; PCPA, 230%; citalopram, saline, 179%; PCPA, 181%). PCPA depleted tissue and dialysate serotonin by approximately 90 and 50%, respectively, and prevented the effect of fluoxetine and citalopram on dialysate serotonin (fluoxetine, saline, 246%; PCPA, 110%; citalopram, saline, 155%; PCPA, 96%). Citalopram significantly raised extracellular serotonin from 0.1 to 100 microM (251-520%), whereas only 10 and 100 microM increased dialysate dopamine (143-231%). Fluoxetine similarly increased extracellular serotonin (98-336%) and dopamine (117-318%). PCPA significantly reduced basal serotonin and the effects of 100 microM fluoxetine (saline, 272%; PCPA, 203%) and citalopram (saline, 345%; PCPA, 258%) on dialysate serotonin but did not modify their effect on dopamine (fluoxetine, saline, 220%; PCPA, 202%; citalopram, saline, 191%; PCPA, 211%). The results clearly show that the effects of fluoxetine and of high concentrations of citalopram on extracellular dopamine do not depend on their effects on serotonin.     

重度OSAS患者前额叶皮质及岛叶1H-MR波谱研究

目的:利用氢质子MRS(1H-MRS)探讨重度阻塞性呼吸睡眠暂停综合症(Severe obstructive sleep apnea syndrome,S-OSAS)患者前额叶皮质及岛叶脑代谢产物特征。方法:选择18例S-OSAS患者(S-OSAS组)和15名健康志愿者(HC组)行左侧前额叶皮质及岛叶1H-MRS检查,测量两组左侧前额叶皮质区及岛叶N-乙酰天冬氨酸/肌酸(NAA/Cr)、胆碱/肌酸(Cho/Cr)值。对患S-OSAS累计时间与前额叶皮质及岛叶NAA/Cr作直线相关分析。结果:与正常对照组相比,S-OSAS患者左侧前额叶皮质、岛叶NAA/Cr比值降低,分别为1.43±0.47、1.34±0.06,对照组分别为1.51±0.65、1.45±0.07;S-OSAS组患者左侧前额叶皮质、岛叶Cho/Cr分别为0.90±0.08、1.19±0.13,对照组分别为0.87±0.07、1.09±0.02,两组差异有统计学意义。前额叶皮质及岛叶代谢物NAA/Cr与患S-OSAS累计时间成负相关性(r值分别为-0.965、-0.955,P<0.01)。结论:1H-MRS显示S-OSAS患者前额叶皮质及岛叶病理生理变化,从该区代谢物的改变反应出S-OSAS患者执行及情感功能的异常,其NAA/Cr改变程度与患S-OSAS累计时间相关。     

Stress Preferentially Increases Extraneuronal Levels of Excitatory Amino Acids in the Prefrontal Cortex: Comparison to Hippocampus and Basal Ganglia

Abstract: The technique of intracerebral microdialysis was used to assess the effect of stress on the extracellular concentrations of excitatory amino acids, glutamate and aspartate, in the rat medial prefrontal cortex, hippocampus, striatum, and nucleus accumbens. A 20-min restraint procedure led to an increase in extracellular glutamate in all regions tested. The increase in glutamate levels was significantly higher in the prefrontal cortex than that observed in other regions. With the exception of the striatum, extracellular levels of aspartate were increased in all regions. Furthermore, the increase in aspartate levels was significantly higher in prefrontal cortex compared to hippocampus and nucleus accumbens. Local perfusion of tetrodotoxin during the restraint procedure significantly decreased the stress-induced increase in extracellular excitatory amino acids. In order to ensure that the above results were not an artifact of restraint not associated with stress (e.g., decreased mobility), we also examined the effect of swimming stress on the extracellular levels of excitatory amino acids in selected regions, i.e., striatum and medial prefrontal cortex. Both regions displayed a significant increase in extracellular levels of aspartate and glutamate following 20 min of swimming in room temperature water. This study provides direct evidence that stress increases the neuronal release of excitatory amino acids in a regionally selective manner. The implications of the present findings for stress-induced catecholamine release and/or hippocampal degeneration are discussed.     

Involvement of Dopamine Neurons in the Regulation of β-Adrenergic Receptor Sensitivity in Rat Prefrontal Cortex

The contribution of dopamine (DA) afferents to the regulation of beta-adrenergic receptor sensitivity (isoproterenol-stimulated adenylate cyclase activity) in the rat prefrontal cortex was investigated by comparing the effects of lesions affecting either both DA and noradrenaline (NA) or NA fibers alone. Bilateral 6-hydroxydopamine (6-OHDA) lesions made in the ventral tegmental area destroyed ascending DA and to a variable extent ascending NA fibers innervating the prefrontal cortex. Two opposite effects were observed depending on the extent of cortical NA denervation: (a) When NA denervation was complete (less than 4% of controls), a marked increase in the isoproterenol-sensitive adenylate cyclase activity (+78%) was found. The amplitude of this denervation supersensitivity was similar to that occurring following complete and selective destruction of NA innervation induced by bilateral 6-OHDA injections made into the pedunculus cerebellaris superior. (b) When 6-OHDA injections into the ventral tegmental area led to a partial destruction of cortical NA afferents (10-40% of control values), a hyposensitivity of the isoproterenol-induced adenylate cyclase activity (-30%) was observed. This effect contrasted with the moderate supersensitivity seen in rats with partial, but selective, destruction of NA innervation (pedunculus cerebellaris superior lesions). The hyposensitivity of beta-adrenergic receptors obtained in rats with partial lesions of cortical NA fibers, but devoid of cortical DA innervation, suggests that DA neurons may regulate, under certain conditions, the denervation supersensitivity of beta-adrenergic receptors.