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1.
新生大鼠缺氧缺血脑损伤后bcl-x mRNA的表达 总被引:2,自引:0,他引:2
目的 探讨新生大鼠脑缺氧缺血后死亡相关基因 bcl- x m RNA表达的变化及其与脑缺氧缺血所致细胞凋亡的关系。方法 通过建立新生大鼠缺氧缺血性脑病动物模型 ,应用快速竞争性 RT- PCR技术对缺氧缺血后不同时间点的缺血侧大脑组织中 bcl- x m RNA的表达进行半定量分析 ,并在相同缺血基础上观察缺氧 1.5小时、2 .5小时和 3.5小时对 bcl- x m RNA表达的影响。结果 缺氧缺血后 ,新生大鼠脑 bcl- xs(bcl-x短型 ) m RNA的表达自缺氧结束后即刻即有明显增强 ,2 4小时达高峰 ,此后逐渐下降 ,7天时回复至正常基线水平。随着缺氧时间的延长即缺氧程度的加重 ,bcl- xs m RNA的表达有增强趋势 ,缺氧 1.5小时组、2 .5小时组及 3.5小时组之间 bcl- xs m RNA表达水平的差异均具显著性意义 (P<0 .0 1)。bcl- xs m RNA的表达高峰与缺氧缺血后脑细胞凋亡的高峰时相相吻合。缺氧缺血对 bcl- xl(bcl- x长型 ) m RNA的表达无影响。结论缺氧缺血可诱导新生大鼠脑 bcl- xs m RNA表达增强。在一定范围内 ,其表达强度与缺氧程度成正相关。 bcl-xs过表达在缺氧缺血后脑细胞凋亡的调控过程中起着一定的作用 相似文献
2.
DeGracia DJ 《Journal of neuroscience research》2004,77(6):771-776
Lack of recovery from protein synthesis inhibition (PSI) closely correlates with neuronal death following brain ischemia and reperfusion. It has therefore been suggested that understanding the mechanisms of PSI will shed light on the mechanisms of selective neuronal death following ischemia and reperfusion. It is now known that the PKR-like ER kinase (PERK)-mediated phosphorylation of eukaryotic initiation factor 2alpha (eIF2alpha) causes translation inhibition at initial reperfusion. Activation of PERK, in turn, indicates endoplasmic reticulum stress and activation of the unfolded protein response. However, phosphorylation of eIF2alpha is a transient event and can account for PSI only in the initial hours of reperfusion. Although a number of other regulators of protein synthesis, such as eIF4F, 4EBP-1, eEF-2, and S6 kinase, have been assessed following cerebral ischemia and reperfusion, the causes of prolonged PSI have yet to be fully elucidated. The purpose of the present article is to bring together the evidence indicating that, at minimum, postischemic PSI should be conceptualized as consisting of two components: an acute, transient component mediated by unfolded protein response-induced eIF2alpha phosphorylation and a longer term component that correlates with neuronal death. Ischemic tolerance appears to separate the acute and persistent components of reperfusion-induced translation inhibition. Specific models of the relationship among acute PSI, persistent PSI, and neuronal death are presented to clarify issues that have emerged from ongoing work in this area. 相似文献
3.
Hypoxia-ischemia (H/I) damages cells in the immature brain and interferes with subsequent brain development; the extent of the damage has been related to the severity, or duration, of the initial insult. This study examined the effects of both severe and moderate duration of H/I on the evolution of damage through 8 weeks of recovery. Seven-day-old rat pups were subjected to either 75 min or 2 h of 8% oxygen following a unilateral carotid artery ligation. Evaluation of brain damage included morphometric analysis of hemispheric diameter at 2, 4, and 8 weeks of recovery, and hematoxylin and eosin for evaluation of pathology at 8 weeks. Two hours of H/I produced severe infarction in the ipsilateral hemisphere in the majority of the survivors, apparent by 2 weeks of recovery with no change at 4 or 8 weeks. In marked contrast, 75 min of H/I produced no significant damage during the initial 2 weeks of recovery but resulted in progressive cerebral atrophy with delayed infarction such that the extent of damage at 8 weeks was not different from the 2-hour group. Thus, even a mild-moderate ischemic insult to the perinatal brain establishes a vulnerable region which ultimately dies without intervention. 相似文献
4.
Summary Cellular protein synthesis was investigated in the rat hippocampus 2–100 h following 20 min of cerebral ischemia induced by four-vessel occlusion. [3H]-Phenylalanine was retrogradely infused through the external carotid artery for 30 min. This method limited the distribution of the tracer to one hemisphere and required 1/50th of the tracer amount used for intravenous tracer infusion. Cellular [3H]phenylalanine incorporation was examined in hematoxyline and eosin-stained sections coated with nuclear emulsion. A score for relative protein synthesis was estimated from counts of silver grains across neuron somata with undamaged morphology. Shortly after ischemia a generalized complete arrest of protein synthesis was observed. In CA1 pyramidal cells, this was followed by a transient incomplete regeneration (9–20 h) and later (46–100 h) persistent cessation of protein synthesis. By contrast protein synthesis in interneurons, CA3c pyramidal cells and granule cells recovered to preischemic levels 9–100 h after ischemia, as did the CA3ab pyramidal cells 46–100 h postischemia. Moreover, eosinophilic cell changes were seen in hilar and CA3c neurons at all postischemic stages and in CA1 pyramidal cells 46–72 h after ischemia. [3H]Phenylalanine incorporation was absent in neurons demonstrating eosinophilic cell changes. From the rapid recovery of protein synthesis in hippocampal interneurons, we conclude that changes in interneuronal protein synthesis per se are not involved in the pathophysiology of the delayed ischemic CA1 pyramidal cell death.Supported by research grants from The Danish Research Council and the Danish Biotechnology Program 相似文献
5.
T. Nakagomi Hideaki Kanemitsu Koji Narita Hitoshi Nakayama Teruyuki Ishii Akira Tamura 《Acta neuropathologica》1998,95(6):565-570
Following focal cerebral ischemia, neuronal cell death is detected in remote areas of the brain, including the ipsilateral
thalamus and substantia nigra (SN), as well as in the ischemic core. We have investigated protein synthesis in the remote
areas of rats exposed to focal ischemia using autoradiography. The proximal portion of the left middle cerebral artery (MCA)
was permanently occluded, and at various periods (6 h, 2, 4 and 7 days and 2 and 4 weeks following ischemia) animals received
a single dose of l-[2,3-3H]valine (6.7 mCi/kg). Brain sections containing the thalamus and SN were processed for autoradiography. In the ipsilateral
cerebral cortex and striatum, marked impairment of protein synthesis was observed and was never completely recovered during
the experiment. No changes in protein synthesis in the ipsilateral thalamus were detected during the experiment. However,
a change in protein synthesis was demonstrated in the ipsilateral SN. At 2 days after MCA occlusion, incorporation of [3H]valine into the whole zona reticulata of the ipsilateral SN was slightly enhanced and the increase became evident at 4 days
after ischemia. Increased incorporation of [3H]valine began to be localized in the lateral portion of the zona reticulata after 7 days and continued up to 4 weeks following
ischemia. Enhanced protein synthesis during the early stage (2 and 4 days after ischemia) may be due to the activated function
of the neurons in the zona reticulata and that during the late stage (7 days and 2 and 4 weeks) after ischemia to astroglial
proliferation
Received: 22 July 1997 / Revised, accepted: 13 November 1997 相似文献
6.
Type I cells of embryonic rabbit carotid bodies were cultured under normoxic (21% O2, 10% CO2, 69% N2) and hypoxic (5% O2, 10% CO2, 85% N2) conditions for two days. The mean membrane potential in the hypoxic cultivated type I cells (-27 mV) was significantly higher than in normoxic cultivated cells (-10 mV). The mean input resistance also had the tendency to increase under hypoxic conditions, from 19 m omega to 48 M omega. Results suggest that variations in membrane potential of type I cells due to oxygen pressure changes are an expression of the important role of these cells in oxygen sensing by the carotid body. 相似文献
7.
Summary Regional cerebral protein synthesis following brief ischemia was investigated in the Mongolian gerbil, utilizing l-[methyl-14C]methionine autoradiography. Transient ischemia was induced for 1,2 or 3 min. At various recirculation periods up to 48 h, animals received a single dose of l-[methyl-14C]-methionine and then were terminated 35 min later. Sham-operated animals showed a normal pattern of amino acid incorporation into the proteins of the brain. Following 1-min ischemia, the pattern of protein synthesis was similar to that in the sham-operated gerbils. Ischemia for 2 min, however, caused marked inhibition of protein synthesis in the neocortex, striatum, hippocampal CA1 sector and the thalamus at 1 h of recirculation. Extensive recovery of protein synthesis was found in the neocortex, the striatum, the hippocampal CA1 sector and the thalamus at 5–24 h of recirculation, but, a slight inhibition was detectable in the hippocampal CA1 sector in one of six animals. This inhibition had fully recovered at 48 h of recirculation. Following 3-min ischemia, severe impairment of protein synthesis was found in the neocortex, striatum, the whole hippocampus and the thalamus. After 5–24 h of recirculation, the protein synthesis in these regions had gradually recovered, except that complete lack of amino acid incorporation was seen in the hippocampal CA1 subfield. This impairment of protein synthesis in the hippocampal CA1 sector was not recovered at 48h of recirculation. Morphological study indicated that 2-min ischemia did not produce any significant neuronal damage in the brain, whereas gerbils subjected to 3-min ischemia revealed a mild neuronal damage in the hippocampal CA1 sector. The present study indicates that even non-lethal ischemia can produce a severe inhibition of protein synthesis in the selectively vulnerable regions during the early stage of recirculation. 相似文献
8.
Xiangjian Zhang Li Xü Zuoran Chen Shuchao Hu Liying Zhang Haiyan Li Ruichun Liu Department of Neurology the Second Hospital of Hebei Medical University Shijiazhuang Hebei Province China Department of Neurology Bejing Aerospace General Hospital Beijing China Department of Neurology Beijing Daxing Hospital of Capital University Beijing China Department of Neurology Beijing Shijingshan Hospital Beijing China Department of Neurology Beijing Shijitan Ho... 《中国神经再生研究》2008,3(10):1111-1115
BACKGROUND: Certain components of tetramethylpyrazine, a traditional Chinese medicine, exhibit protective effects against brain injury. OBJECTIVE: To investigate the effects of different Naoxintong doses on expression of nuclear factor-kappa B ( kB), interleukin-6, tumor necrosis factor-α, and complement 3 in rats following focal cerebral ischemia. DESIGN, TIME AND SETTING: The randomized experiment was performed at the Laboratory of Neurology, Second Hospital of Hebei Medical University from June 2004 to June 2006. MATERIALS: A total of 150 adult, healthy, male, Sprague Dawley rats, weighing 280-320g, were selected. Naoxintong powder (mainly comprising szechwan lovage rhizome, milkvetch root, danshen root, and radix angelicae sinensis) was obtained from Buchang Pharmacy Co., Ltd. in Xianyang City of Shanxi Province of China, lot number 040608. METHODS: The rats were randomly assigned into sham operation, saline, high-dose Naoxintong, moderate-dose Naoxintong, and low-dose Naoxintong groups, with 30 rats in each group. Rat models of middle cerebral artery occlusion were established using the suture method, with the exception of the sham operation group. Rats in the high-dose, moderate-dose and low-dose Naoxintong groups received 4, 2, and 1 g/kg Naoxintong respectively, by gavage. Rats in the saline group were treated with 1 mL saline by gavage All rats were administered by gavage at 5 and 23 hours following surgery, and subsequently, once per day. MAIN OUTCOME MEASURES: At 6, 24, 48, 72 hours, and 7 days following model establishment, brain water content was measured. Histopathological changes in brain tissues were detected using hematoxylin-eosin staining. Expression of nuclear factor- kB, interleukin-6, tumor necrosis factor- α, and complement 3 was examined by immunohistochemistry. RESULTS: A total of 150 rats were included in the final analysis with no loss. Brain water content was significantly increased in the ischemic hemisphere of rats from the saline, as well as the high-dose, mo 相似文献
9.
PURPOSE: One of the potential consequences of perinatal hypoxia-ischemia (H-I) is the development of epilepsy, and synaptic reorganization in the hippocampus has been associated with epilepsy after an injury. We tested the hypothesis that perinatal H-I will induce spontaneous motor seizures, hippocampal lesions, and synaptic reorganization in the dentate gyrus. METHODS: The right common carotid artery of 7-day-old rats was permanently ligated, and the rats were placed for 120 min into a chamber filled with 8% oxygen (37 degrees C). Animals were directly observed for chronic motor seizures for 7 to 24 months after the H-I insult. RESULTS: Nearly half of the rats (i.e., eight of 20) were seen to have spontaneous motor seizures after the H-I injury. The ipsilateral hippocampi from both the rats with seizures and the rats not seen to have seizures had hippocampal lesions and increased amounts of Timm stain in the inner molecular layer (IML) compared with controls. The contralateral hippocampi from the rats with seizures, but not the hippocampi from the rats not seen to have seizures, had significantly increased amounts of Timm stain in the IML. CONCLUSIONS: These results suggest that perinatal H-I can induce epilepsy, ipsilateral hippocampal lesions, and mossy fiber sprouting in the lesioned and contralateral hippocampus. 相似文献
10.
Transient global cerebral ischemia triggers suppression of the initiation step of protein synthesis, a process which is controlled by endoplasmic reticulum (ER) function. ER function has been shown to be disturbed after transient cerebral ischemia, as indicated by an activation of the ER-resident eIF2alpha kinase PERK. In this study, we investigated ischemia-induced changes in protein levels and phosphorylation states of the initiation factors eIF2alpha, eIF2B epsilon, and eIF4G1 and of p70 S6 kinase, proteins playing a central role in the control of the initiation of translation. Transient focal cerebral ischemia was induced in mice by occlusion of the left middle cerebral artery. Transient ischemia caused a long-lasting suppression of global protein synthesis. eIF2alpha was transiently phosphorylated after ischemia, peaking at 1-3 h of recovery. eIF2B epsilon and p70 S6 kinase were completely dephosphorylated during ischemia and phosphorylation did not recover completely following reperfusion. In addition, eIF2B epsilon, eIF4G1, and p70 S6 kinase protein levels decreased progressively with increasing recirculation time. Thus, several different processes contributed to ischemia-induced suppression of the initiation of protein synthesis: a long-lasting dephosphorylation of eIF2B epsilon and p70 S6K starting during ischemia, a transient phosphorylation of eIF2alpha during early reperfusion, and a marked decrease of eIF2B epsilon, eIF4G1, and p70 S6K protein levels starting during vascular occlusion (eIF4G1). Study of the mechanisms underlying ischemia-induced suppression of the initiation step of translation will help to elucidate the role of protein synthesis inhibition in the development of neuronal cell injury triggered by transient cerebral ischemia. 相似文献
11.
Differential effect of NMDA and AMPA receptor blockade on protein synthesis in the rat infarct borderzone 总被引:2,自引:0,他引:2
We investigated whether the known neuroprotective effects of two selective glutamate receptor antagonists, the NMDA antagonist MK-801 and the AMPA antagonist NBQX, are reflected in the regional cerebral protein synthesis rates (CPSR) in rats with middle cerebral artery occlusion (MCAO). Rats treated with either saline, MK-801 (5 mg/kg i.p.) or NBQX (30 mg/kg i.p. × 3) were subjected to permanent MCAO. Regional CPSR and volumes of gray matter structures displaying normal CPSR were measured in coronal cryosections of the brain by quantitative autoradiography following an i.v. bolus injection of 35 S-labelled l -methionine 2 h after occlusion. MCAO completely inhibited protein synthesis in the lateral part of striatum and part of the adjacent frontoparietal cortex corresponding to the ischemic focus. Surrounding this, a metabolic penumbra with approximately 50% reductions in CPSR was present. Treatment with MK-801 significantly increased the volume of tissue with normal CPSR in the ischemic hemisphere compared to controls, whereas this was not seen with NBQX treatment. The results suggest that MK-801 and NBQX have different effects on periinfarct protein synthesis after MCAO. Since both compounds reduce infarct size, it is questionable that acute inhibition of protein synthesis in focal ischemia is of significant importance to the final outcome of a stroke lesion. 相似文献
12.
Lu-Lu Xue Fang Wang Rui-Ze Niu Ya-Xin Tan Jia Liu Yuan Jin Zheng Ma Zi-Bin Zhang Ya Jiang Li Chen Qing-Jie Xia Jun-Jie Chen Ting-Hua Wang Liu-Lin Xiong 《中国神经再生研究》2020,(9):1662-1670
Neonatal hypoxic-ischemic encephalopathy is a serious neurological disease,often resulting in long-term neurodevelopmental disorders among surviving children.However,whether these neurodevelopmental issues can be passed to offspring remains unclear.The right common carotid artery of 7-day-old parental-generation rats was subjected to permanent ligation using a vessel electrocoagulator.Neonatal hypoxic-ischemic rat models were established by subjecting the rats to 8%O2–92%N2 for 2 hours.The results showed that 24 hours after hypoxia and ischemia,pathological damage,cerebral atrophy,liquefaction,and impairment were found,and Zea-Longa scores were significantly increased.The parental-generation rats were propagated at 3 months old,and offspring were obtained.No changes in the overall brain structures of these offspring rats were identified by magnetic resonance imaging.However,the escape latency was longer and the number of platform crossings was reduced among these offspring compared with normal rats.These results indicated that the offspring of hypoxic-ischemic encephalopathy model rats displayed cognitive impairments in learning and memory.This study was approved by the Animal Care&Welfare Committee of Kunming Medical University,China in 2018(approval No.kmmu2019072). 相似文献
13.
Almaguel FG Liu JW Pacheco FJ Casiano CA De Leon M 《Journal of neuroscience research》2009,87(5):1207-1218
Lipotoxicity involves a series of pathological cellular responses after exposure to elevated levels of fatty acids. This process may be detrimental to normal cellular homeostasis and cell viability. The present study shows that nerve growth factor-differentiated PC12 cells (NGFDPC12) and rat cortical cells (RCC) exposed to high levels of palmitic acid (PA) exhibit significant lipotoxicity and death linked to an "augmented state of cellular oxidative stress" (ASCOS). The ASCOS response includes generation of reactive oxygen species (ROS), alterations in the mitochondrial transmembrane potential, and increase in the mRNA levels of key cell death/survival regulatory genes. The observed cell death was apoptotic based on nuclear morphology, caspase-3 activation, and cleavage of lamin B and PARP. Quantitative real-time PCR measurements showed that cells undergoing lipotoxicity exhibited an increase in the expression of the mRNAs encoding the cell death-associated proteins BNIP3 and FAS receptor. Cotreatment of NGFDPC12 and RCC cells undergoing lipotoxicity with docosahexaenoic acid (DHA) and bovine serum albumin (BSA) significantly reduced cell death within the first 2 hr following the initial exposure to PA. The data suggest that lipotoxicity in NGFDPC12 and cortical neurons triggers a strong cell death apoptotic response. Results with NGFDPC12 cells suggest a linkage between induction of ASCOS and the apoptotic process and exhibit a temporal window that is sensitive to DHA and BSA interventions. 相似文献
14.
Ness JM Harvey CR Washington JD Roth KA Carroll SL Zhang J 《Journal of neuroscience research》2008,86(5):1115-1124
Neonatal hypoxia-ischemia (HI) induces immediate early gene (IEG) c-fos expression as well as neuron death. The precise role of IEGs in neonatal HI is unclear. We investigated the temporal and spatial patterns of c-Fos expression in postnatal day 7 mice after unilateral carotid ligation and exposure to 8% oxygen. mRNA levels of c-fos quantitated by real-time polymerase chain reaction (PCR) increased nearly 40-fold (log 1.2 +/- 0.4) in the ipsilateral hippocampus 3 hr following neonatal HI, then returned to basal levels within 12 hr, although no change was observed in c-jun mRNA. Frozen coronal brain sections were stained with cresyl violet or used for immunohistochemical detection of c-Fos, cleaved caspase-3, glial fibrillary acidic protein (GFAP), and the mature neuron marker NeuN. c-Fos immunoreactivity increased throughout the injured hippocampus 3 hr after HI but became restricted to the CA2-3 subregion and the dentate gyrus (DG) at 6-12 hr and declined by 24 hr. In contrast, cleaved (activated) caspase-3 immunoreactivity was most abundant in the ipsilateral CA1 region at 3-6 hr after neonatal HI, then became more prominent in CA2-3 and DG. Double-labeling experiments showed c-Fos and cleaved caspase-3 immunoreactivity localized in spatially distinct neuron subpopulations. Prominent c-Fos immunoreactivity was observed in surviving CA2-3 and external granular DG neurons, and robust cleaved caspase-3 immunoreactivity was observed in pyknotic CA1, CA2-3, and subgranular DG neurons. The differential expression of c-Fos in HI-resistant hippocampal subpopulations vs. cleaved caspase-3 in dying neurons suggests a neuroprotective role for c-Fos expression in neonatal HI. 相似文献
15.
目的 研究不同途径应用胰岛素样生长因子1(IGF-1)对新生大鼠缺氧缺血性脑损伤(HIBD)的影响。方法 40只新生大鼠分为4组:HIBD模型对照组(对照组)、静脉注射组、经鼻腔滴入组和假手术组:给药组于缺氧后分别给予尾静脉注射和经鼻腔滴入IGF-1 2.5μg(溶于生理盐水0.1ml中);对照组于HIBD后给予等量的生理盐水尾静脉注射;假手术组仅分离颈总动脉,不结扎不缺氧。24h后处死取脑组织,免疫组化法观察脑组织caspase-3的表达,组织学方法观察脑组织病理改变情况。结果 与对照组相比,给药各组caspase-3表达减少(均P〈0.01),神经细胞总数增加(均P〈0.01),变性/坏死神经细胞数减少(均P〈0.01),结论 静脉注射和鼻腔滴入IGF-1均可能通过降低HIBD脑组织中caspase-3表达,从而对HIBD脑组织损伤产生保护作用。 相似文献
16.
A comparison of the effects of localized brain administration of catecholamine and protein synthesis inhibitors on memory processing 总被引:2,自引:0,他引:2
Protein synthesis inhibitors disrupt biosynthetic processes thought to control the formation of long-term memory. While the agents used (i.e. puromycin, acetoxycycloheximide, cycloheximide and anisomycin) do not selectively inhibit the synthesis of any particular class of protein, it has generally been hypothesized or assumed that the critical proteins(s) is structural and necessary for modification and/or growth of synapses. Recent reports indicated that all of the protein synthesis inhibitors causing amnesia inhibited tyrosine hydroxylase activity. Tyrosine hydroxylase is needed for the conversion of tyrosine to dopamine (DA) and norpinephrine (NE); altering the level of this enzyme could affect catecholamine (CA) turnover. Since drugs known to inhibit CA synthesis cause amnesia, it is of considerable interest whether amnesia induced by protein synthesis inhibitors depends basically on inhibition of CA synthesis. 相似文献
17.
Modulation of protein synthesis by fragments of the ACTH molecule has been studied in a cell-free system obtained from subcortical brain tissue of rats. Both the activity of the protein-synthesizing system and its sensitivity to ACTH-like peptides appeared to be highly dependent on the Mg2+ and spermine concentrations. At optimal Mg2+ concentrations (4 mM) the peptide sequences ACTH(1–24) and (11–24) were both inhibitory, the latter being the more active. The inhibitory effect was reduced or abolished at higher (suboptimal) Mg2+ concentrations. Spermine, like ACTH, inhibited protein synthesis at the optimal Mg2+ concentration. However, at lower Mg2+ concentrations spermine had a stimulatory effect and maximal activity was obtained at 0.75–1.0 mM Mg2+. In the presence of spermine (60 μM) and Mg2+ (0.75 mM), a half-maximal inhibition of protein synthesis was obtained with a peptide concentration of 5 μM. A structure-activity study showed that the peptides ACTH(7–16)-NH2, (11–24), (5–18, 17Lys18Lys)-NH2 and (15–24) were active in inhibiting protein synthesis, whereas the fragments ACTH(1-16)-NH2 and (17–24) were inactive. The results are discussed in terms of an interaction between ACTH, Mg2+, and spermine, and intracellular processes involved in protein synthesis. 相似文献
18.
Martijn J de Groot Paul E Sijens Dirk-Jan Reijngoud Anne M Paans Francjan J van Spronsen 《Journal of cerebral blood flow and metabolism》2015,35(2):200-205
In phenylketonuria, elevated plasma phenylalanine concentrations may disturb blood-to-brain large neutral amino acid (LNAA) transport and cerebral protein synthesis (CPS). We investigated the associations between these processes, using data obtained by positron emission tomography with l-[1-11C]-tyrosine (11C-Tyr) as a tracer. Blood-to-brain transport of non-Phe LNAAs was modeled by the rate constant for 11C-Tyr transport from arterial plasma to brain tissue (K1), while CPS was modeled by the rate constant for 11C-Tyr incorporation into cerebral protein (k3). Brain phenylalanine concentrations were measured by magnetic resonance spectroscopy in three volumes of interest (VOIs): supraventricular brain tissue (VOI 1), ventricular brain tissue (VOI 2), and fluid-containing ventricular voxels (VOI 3). The associations between k3 and each predictor variable were analyzed by multiple linear regression. The rate constant k3 was inversely associated with brain phenylalanine concentrations in VOIs 2 and 3 (adjusted R2=0.826, F=19.936, P=0.021). Since brain phenylalanine concentrations in these VOIs highly correlated with each other, the specific associations of each predictor with k3 could not be determined. The associations between k3 and plasma phenylalanine concentration, K1, and brain phenylalanine concentrations in VOI 1 were nonsignificant. In conclusion, our study shows an inverse association between k3 and increased brain phenylalanine concentrations. 相似文献
19.
目的 探讨地塞米松对大鼠脑缺血-再灌注损伤时海马谷氨酸转运体功能的影响及其与自由基的关系。方法 采用大鼠三动脉夹闭,松夹制作脑I-R模型,利用海马突触膜颗粒对^3H-L谷氨酸摄入量的测定及分光光度法测定了海马谷氨酸转运体,超氧化物歧化酶活性及丙二醛含量的变化。结果 与对照组相比,I-R组海马谷氨酸转运体的功能及SOD活性降低;MDA含量升高。 相似文献
20.
Effects of neonatal hypoxia on brain development in the rat: immediate and long-term biochemical alterations in discrete regions 总被引:3,自引:0,他引:3
Theodore A. Slotkin Todd S. Cowdery Lisa Orband Steven Pachman William L. Whitmore 《Brain research》1986,374(1):63-74
To evaluate the sensitivity of immature brain tissue to hypoxic insult, neonatal rats were exposed to 7% O2 for 2 h at critical stages of development (1, 8, 15, 23 days of postnatal age); the immediate and long-term impact of hypoxia was then assessed in cerebellum, cerebral cortex and midbrain through measurement of ornithine decarboxylase (ODC) activity, a biochemical determinant of cellular injury and subsequent maturation, and through measurements of protein synthesis, growth and synaptosomal uptake of norepinephrine (an index of noradrenergic synaptogenesis). In one-day-old rats, hypoxia caused stimulation of protein synthesis and short-term suppression of ODC activity which persisted for several hours after termination of low O2 exposure; over the ensuing days, there was a prolonged elevation of enzyme activity and a subsequent, regionally selective increase in synaptosomal uptake of norepinephrine without changes in brain growth. In contrast, hypoxia in 8-day-old rats produced signs of metabolic injury, with a short-term elevation of ODC throughout the brain and reduced protein synthetic rates, eventual shortfalls in brain regional growth and no net increase in synaptosomal uptake. The effects of hypoxia on brain regional growth in 8-day-old animals appeared to represent an age-specific effect, as low as O2 conditions in older animals did not affect growth (animals made hypoxic at 15 or 23 days), but did produce an eventual reduction in synaptosomal uptake (hypoxia at 15 days). Differences between one-day-old and 8-day-old rats were also apparent in cerebral responses simply to a 2-h separation from the dam under normoxic conditions. These results support the view that cellular development and synaptogenesis are compromised when neonatal brain tissue is exposed to hypoxic conditions, and that there are critical periods of sensitivity in which processes undergoing rapid maturational change are particularly vulnerable. 相似文献