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31.
血管紧张素—(1—7)在大鼠延髓头端腹外侧通过氨基酸类递质调节血压的作用 总被引:5,自引:0,他引:5
采用微量注射、微透析、高效液相色谱-荧光测定等技术和方法,观察和 血管紧张素-(1-7)[Ang-(1-7)]在延髓头端腹外侧(RVLM)与氨基酸类递质释放之间的关系,在麻醉大鼠RVLM注射Ang-(1-7)可引起血压升高,同时伴RVLM兴奋性氨基酸(EAA)释放增多;在RVLM注射Ang-(1-7)选择性受体拮抗剂Ang779可引起血压降低,同时伴RVLM EAA释放减少和抑制性氨基酸(IAA)释放增多,Ang-(1-7)的升压作用和Ang779的降压作用均可被相应的氨基酸受体拮抗剂部分阻娄。结果提示,Ang-(1-7)在RVLM的升压效庆可能部分是通过EAA释放增多所致;而Ang779在 RVLM的降压效应可能部分是通过EAA释放减少、IAA释放增多所致。 相似文献
32.
Bilateral lesion of the nucleus basalis with ibotenic acid infusions in young and aged rats results in the degeneration of cholinergic neurons which innervate the cortex. As expected, high-affinity uptake of choline was decreased in the frontal cortex subsequent to the lesion. Twenty one days after surgery there was a significantly decrease of the transport rate of GABA, glutamate and glycine in the frontal cortex of young rats, but those activities showed a recovery six months after lesion. On the contrary, 12-month old rats lesioned with the same experimental protocol showed no recovery of the transport rates in the frontal cortex. Uptake of choline, GABA, glutamate and glycine has also been studied in other areas of the brain, namely, hippocampus, olfactory bulb and cerebellum. The present results suggest that lesioning the nucleus basalis of rats led to a more effective and permanent impairment of some biochemical functions of the brain, when compared to young lesioned animals, and also suggest a functional relationship between the nucleus basalis and other areas of the brain. 相似文献
33.
Age-related differences in the multichemical proton magnetic resonance spectroscopy (1H-MRS) profile of the human brain have been reported for several age groups, and most consistently for ages from neonates to 16-year-olds. Our recent 1H-MRS study demonstrated a significant age-related increase of total chemical concentration (relative to creatine) in the prefrontal and sensorimotor cortices within young adulthood (19-31-year-olds). In the present study we test the hypothesis that the level of brain chemicals in the same cortices, which show increased chemical levels during normal development, are reduced with normal aging after young adulthood. The multichemical 1H-MRS profile of the brain was compared between 19 young and 16 middle-aged normal subjects across multiple brain regions for all chemicals of 1H-MRS spectra. Chemical concentrations were measured relative to creatine. Over all age groups the total relative chemical concentration was highest in the prefrontal cortex. Middle-aged subjects demonstrated a significant decrease of total relative chemical concentration in the dorsolateral prefrontal (F = 54.8, p < 10(-7), ANOVA), orbital frontal (F = 3.7, p < 0.05) and sensorimotor (F = 15.1, p < 0.0001) cortices, as compared with younger age. Other brain regions showed no age-dependent differences. The results indicate that normal aging alters multichemical 1H-MRS profile of the human brain and that these changes are region-specific, with the largest changes occuring in the dorsolateral prefrontal cortex. These findings provide evidence that the processes of neuronal maturation of the human brain, and neurotransmitters and other chemical changes as the marker of these neuronal changes are almost finished by young adulthood and then reduced during normal aging toward middle age period of life. The present data also support the notion of heterochronic regressive changes of the aging human brain, where the multichemical brain regional profile seems to inversely recapitulate cortical chemical maturation within normal development. 相似文献
34.
Cellular defenses against excitotoxic insults 总被引:9,自引:0,他引:9
Sapolsky RM 《Journal of neurochemistry》2001,76(6):1601-1611
The cellular events mediating necrotic neuron death are now reasonably well understood, and involve excessive extracellular accumulation of glutamate and free cytosolic calcium. When such necrotic neurological insults occur, neurons are not passively buffeted, but instead mobilize a variety of defenses in an attempt to decrease the likelihood of neuron death, or to decrease the harm to neighboring neurons (by decreasing the likelihood of inflammation). This review considers some of these defenses, organizing them along the lines of those which decrease neuronal excitability, decrease extracellular glutamate accumulation, decrease cytosolic calcium mobilization, decrease calcium-dependent degenerative events, enhance neuronal energetics, and bias a neuron towards apoptotic, rather than necrotic, death. Although these are currently perceived as a disparate array of cellular adaptations, some experimental approaches are suggested that may help form a more unified subdiscipline of cellular defenses against neurological insults. Such an advance would help pave the way for the rational design of therapeutic interventions against necrotic insults. 相似文献
35.
Long-term exposure to lead has been shown to produce behavioral disturbances in human and animal models. These disturbances
are shown to be associated with alterations in cholinergic and dopaminergic neurotransmission in the central nervous system.
The present experiment was designed to study the effect of lead exposure on neurotransmitters like dopamine, serotonin, norepinephrine,
and activity of acetyl cholinesterase along with alterations seen in memory and locomotor functions. Lead was administrated
orally in a dose of 50 mg/kg for 8 wks on alternate days and a study was done at the end of exposure and also after 8 wk of
recovery. Lead exposure reduced the brain and body weight, which, however, did not improve even after recovery of 8 wk. The
alterations seen in the various transmitters also remain unchanged at the end of recovery. Lead exposure for 8 wk affected
the locomotor and cognitive functions as assessed by the rota rod treadmill and active avoidance test. However, following
a recovery period, a significant improvement was seen in locomotor as well as cognitive behavior. The short-term memory as
assessed by the passive avoidance test remains unchanged both following lead exposure as well as recovery. 相似文献
36.
Changes in amino acid concentrations were investigated in selected regions of rat brain prior to the onset and during the course of epileptiform seizures induced by L-homocysteine. The concentration of gamma-aminobutyric acid (GABA) decreased preictally in substantia nigra (-18%), caudate putamen (-26%), and inferior colliculus (-46%). After seizure onset, the GABA content was further reduced in substantia nigra (-31%) and additionally in hippocampus (-18%). Preictal taurine levels were elevated in globus pallidus (+26%) and caudate putamen (+13%) but returned to normal after seizure onset. However, in hippocampus, taurine decreased both preictally (-22%) and after seizure onset (-56%). Glycine was reduced preictally only in globus pallidus (-13%). After seizure onset the direction of its concentration change varied in the brain regions studied. Glutamate levels decreased preictally in hippocampus (-10%) and hypothalamus (-46%) but increased in globus pallidus (+14%). Normal levels were detectable after seizure onset in hypothalamus and globus pallidus but a further reduction in hippocampus (-59%) and significant reductions in substantia nigra (-15%) and caudate putamen (-17%) were detected. Aspartate was elevated in hippocampus, both preictally (+49%) and after seizure onset (+21%) while at the same phases in globus pallidus a consistent reduction (-30%) was observed. The glutamine content increased preictally in globus pallidus (+41%) and hypothalamus (+36%), and in all brain areas during the ictal phase of seizure, the hippocampus exhibiting a dramatic increase (approximately 300%). The contents of serine and alanine were altered in most regions studied only after seizure onset, with the exception of the hippocampus, where a decrease (-41%) of serine was observed preictally. 相似文献
37.
Development of gonadotropin-releasing hormone (GnRH) neuron regulation in the female rat 总被引:1,自引:0,他引:1
Summary 1. After reaching its final destination the GnRH neuronal network develops under the influence of both excitatory and inhibitory inputs.2. In the first 2 weeks of life, the immaturity of the GnRH neuronal system is reflected in sporadic unsynchronized bursts of the decapeptide, which determine the pattern of serum gonadotropin levels observed in female rats: high FSH levels and transient bursts of LH. The main inhibitory neuronal systems that operate in this period are the opioid and dopaminergic systems. A decrease in their inhibitory effectiveness may not be sufficient correctly to activate and synchronize the GnRH neuronal system.3. There is a concomitant increase in excitatory inputs, mainly noradrenaline, excitatory amino acids, and NPY, which increase the synthesis and release of GnRH at the beginning of the juvenile period and participate in the coupling of GnRH neural activity to the ongoing rhythmic activity of a hypothalamic circadian oscillator.4. The morphological changes of GnRH neurons which take place during the third and fourth weeks of life, and which are probably related to increasing estradiol levels, reflects the increasing complexity of the GnRH neuronal network, which establishes synaptic contacts to enable the expression of pulsatility and of the positive feedback of estradiol, both necessary components for the occurrence of puberty. 相似文献
38.
39.
缺氧小鼠脑中神经节苷脂和单胺类神经递质水平 总被引:4,自引:0,他引:4
脑缺氧和缺氧后的再灌注常导致一系列复杂的生理生化改变.通过小鼠重复缺氧后,观察其脑组织中的神经节苷脂和单胺类递质水平变化情况,发现重复缺氧时,随着缺氧次数的增加,a.神经节苷脂水平(以唾液酸含量表示)非常明显地持续下降(P<0.01),其中GM1与GD1b相对组分百分比值下降尤为突出(GM1:P<0.05,GD1b:P<0.01); b.单胺类神经递质中NE和DOPA水平下降,DA和HIAA水平升高(P<0.01).结果提示脑组织经重复缺氧后,中枢神经组织细胞膜受到一定程度的损伤,其结果可能影响到单胺类神经递质的合成、释放、重摄取和贮存的全过程;据此推测脑组织缺氧时神经节苷脂与单胺类神经递质水平改变时存在着相互联系. 相似文献
40.
妊娠期给予可卡因对母体和胎儿的影响: 小鼠动物模型 总被引:1,自引:0,他引:1
探讨妊娠期给予可卡因对母体和胎儿的影响。妊娠小鼠分为3组:可卡因注射组(每日两次注射盐酸可卡因10mg/kg,COC);盐水对照组(每日两次注射生理盐水10ml/kg,SAL);饮食对照组(每日两次注射生理盐水10ml/kg,饮食参考可卡因给药组,SPF)。用高压液相色谱分析法检测胎鼠血中可卡因浓度及纹状体中神经递质多巴胺和5-羟色胺的含量,并结合HE染色观察胎鼠肝脏和胎盘的形态学改变。尽管COC和SPF组母鼠摄食量和体重增长量均降低,但是仅仅COC组胎鼠的体重和脑重减少。高压液相色谱分析结果显示,在COC组胎鼠血浆中可检测出可卡因,并伴有纹状体神经递质含量的异常增高。同时,也观察到了COC组胎盘和肝脏的形态学变化。本研究表明,妊娠期给予可卡因能引起妊娠母体营养不良,子代脑、肝脏和胎盘发育异常;可卡因引起的胎儿发育异常是由可卡因的毒性作用而不是母体营养不良产生的。 相似文献