Variations in Brain Cortical Polysome Translation Products Among Rats of the Same Strain

Studies were undertaken to determine whether there exist variations among the translation products of polysomes from different brains of animals of the same strain. Polysomes were prepared from individual rat cortices and translated in a reticulocyte protein-synthesizing system containing rabbit reticulocyte factors and L-[35S]methionine; he resulting radioactive proteins were analyzed by two-dimensional polyacrylamide gel electrophoresis autoradiography. Comparison of the autoradiographs revealed that two acidic proteins, A and B, of apparent 54,000 M. W. occur as three phenotype: A only, B only, or A plus B. These proteins were not detectable by Coomassie brilliant blue staining of two-dimensional electrophoretograms of brain protein preparations. Messenger RNA was extracted from pooled cortices and translated in a wheat germ extract, and both A and B proteins were detected among the products of translation. Cyclic AMP affinity chromatography of the translation products of cortical polysomes showed that both A and B proteins bind to cyclic AMP. Our data are consistent with the conclusion that there are qualitative differences in the polysome translation products that bind to cyclic AMP among individual cortices of rats of the same strain.     

Effect of Changing Potassium Ion Concentrations on Rat Cerebral Slices In Vitro: A Study During Development

Abstract: Adult rat cerebral cortex slices when incubated in media of increasing K⁺ concentrations, from 3 to 20 mM ("physiological" conditions), exhibited an increase of K_i⁺ and a decrease of Na_i⁺ and Cl_i^-. This phenomenon appeared at 30 days postnatally, which is fairly late during development. Over 20 mM-K⁺ ("pathological" conditions) an intense water uptake was observed together with an increase of Na_i⁺ and Cl_i^-. This was observed in both adult and young animals. The results are discussed in relation to the well known properties of glial (Na⁺,K⁺)-ATPase and carbonic anhydrase.     

Diversity of Metabolic Patterns in Human Brain Tumors: Enzymes of Energy Metabolism and Related Metabolites and Cofactors

Biopsies from 15 human gliomas, five meningiomas, four Schwannomas, one medulloblastoma, and four normal brain areas were analyzed for 12 enzymes of energy metabolism and 12 related metabolites and cofactors. Samples, 0.01-0.25 microgram dry weight, were dissected from freeze-dried microtome sections to permit all the assays on a given specimen to be made, as far as possible, on nonnecrotic pure tumor tissue from the same region. Great diversity was found with regard to both enzyme activities and metabolite levels among individual tumors, but the following generalities can be made. Activities of hexokinase, phosphorylase, phosphofructokinase, glycerophosphate dehydrogenase, citrate synthase, and malate dehydrogenase levels were usually lower than in brain; glycogen synthase and glucose-6-phosphate dehydrogenase were usually higher; and the averages for pyruvate kinase, lactate dehydrogenase, 6-phosphogluconate dehydrogenase, and beta-hydroxyacyl coenzyme A dehydrogenase were not greatly different from brain. Levels of eight of the 12 enzymes were distinctly lower among the Schwannomas than in the other two groups. Average levels of glucose-6-phosphate, lactate, pyruvate, and uridine diphosphoglucose were more than twice those of brain; 6-phosphogluconate and citrate were about 70% higher than in brain; glucose, glycogen, glycerol-1-phosphate, and malate averages ranged from 104% to 127% of brain; and fructose-1,6-bisphosphate and glucose-1,6-bisphosphate levels were on the average 50% and 70% those of brain, respectively.     

Possible metabolic constraints on human brain weight at birth

Having humans born with adult-size brains would entail only a small and readily evolved increase in the size of the human female birth canal. The explanation for the present size of the human brain at birth is then plausibly based on the upper limit of brain that can be nourished by present human nutritional strategies. This limit turns out to be about 10% of the body weight of the newborn infant, in agreement with the actual value.     

Effects of a Single Therapeutic Dose of Glycerol on Cerebral Metabolism in the Brains of Young Mice: Possible Increase in Brain Glucose Transport and Glucose Utilization

Abstract: This is a study of the effects of a single “therapeutic” dose of glycerol [2 g(22 mmol)/kg i.p.] on brain carbohydrate and energy metabolism in normal nursing weanling mice. Findings were correlated with brain water and electrolyte content and with metabolite changes in plasma, red blood cells, and liver. Plasma glycerol levels peaked at 21 mM 7.5 min after injection and returned to the control value, 0.16 mM, by 2 h. Plasma Na⁺ concentration decreased and plasma protein increased for as long as 2 h after injection. Although red blood cells were freely permeable to glycerol, there was no evidence for glycerol metabolism in these cells. Glycerol levels in liver paralleled those in plasma. Glycerol injection increased liver glucose concentration 23% and doubled hepatic glycerol-1-phosphate levels. Liver ATP levels were reduced 24% after glycerol injection. Brain water concentration was significantly reduced from 7.5 min to 30 min after glycerol injection; brain Na⁺ and K⁺ levels were unchanged. There was no evidence for glycerol entry into brain (the amount detected in brain tissue could be explained by the glycerol content in the blood of the brain). While plasma glucose increased 33%, brain glucose increased 87%. Concomitantly there were statistically significant increases in fructose-1,6-diphosphate, lactate, α-ketoglutarate, and malate levels. The disproportionately high brain glucose value suggests increased transport of glucose from the blood to the brain. Increases in fructose-1,6-diphosphate, lactate, α-ketoglutarate, and malate are compatible with an increased metabolic flux in the glycolytic pathway and Krebs citric acid cycle. As has been previously shown for urea and/or mannitol, these changes may result from the effects of the hyperosmolar glycerol solution on the blood-brain barrier and on cerebral glucose utilization. The sustained lowering of plasma Na⁺ concentration after a single “therapeutic” glycerol injection suggests a need for monitoring plasma Na⁺ levels in the clinical situation. Possible lowering of hepatic ATP levels by the use of glycerol in humans is another concern.     

Glutamate measured by 6-s resolution brain microdialysis: capillary electrophoretic and laser-induced fluorescence detection application

In the present experiment the combination of brain microdialysis and CZE–LIFD permitted the measurement of glutamate in 100 nl microdialysis samples collected every 5 or 6 s. Samples were collected every 6 s, in rats anesthetized with two different anesthetic agents (ketamine and sodium thiopental). A microdialysis probe was inserted in the cortex of an anesthetized rat in the territory irrigated by the middle cerebral artery. The artery was clamped for 30 s and then released. The samples were derivatized with fluorescein isothiocyanate I (FITC) by means of a continuous-flow reactor, collected and injected into a home-made CZE–LIFD instrument. Glutamate decreased immediately after clamping the artery in ketamine anesthetized rats and increased 1 min after the onset of the ischemia in sodium thiopental anesthetized rats. In another experiment a 60 mM KCl solution was injected through a microdialysis probe inserted in the hippocampus of an anesthetized rat. In the first 5 s after the KCl solution reached the tissue, glutamate increased but γ-aminobutytic acid and glutamine did not. The experiments show that time resolution of brain microdialysis can be reduced to a few seconds if the analytical technique is the proper one.     

编者按: 脑成像与脑网络

揭示脑的奥秘是人类面临的最大挑战之一。神经元是构成神经系统结构与功能的基本单位。神经元与神经元之间通过突触实现信息交互,并构成神经环路或神经网络。神经环路有局部的,也有跨脑区或长程的,甚至全脑尺度的。神经环路则是脑实现神经信息处理的基本单元。若干神经环路构成脑网络。脑网络研究已经成为脑功能与脑疾病研究领域的热点。 在国家自然科学基金委员会和科技部“973计划”等项目的支持下,我国科学家在这一领域已经开展了卓有成效的工作。2011年第393次香山科学会议“脑网络组及其临床应用的前沿科学问题”曾对此进行过比较深入的研讨。为促进对该领域现状及发展的了解,本期汇集了2篇述评和2篇研究论文,作为脑成像与脑网络专题发表,以飨读者。 利用9.4T功能磁共振成像(fMRI)获得轻度麻醉状态下大鼠静息状态及刺激激活的数据,通过互相关分析构建节点之间的相关系数矩阵并计算相应的网络参数,赖永秀等人报道了大鼠感觉运动系统静息态脑网络的研究成果,发现感觉运动系统在静息态时的脑网络具有小世界属性。 扩散磁共振成像(dMRI)的出现为大脑结构与功能研究提供了全新的检测手段,雷皓等报道了小动物高分辨扩散磁共振成像数据分析方法,为小动物脑dMRI研究提供了统一图像模板与完善的计算方法,对于检测神经纤维微观结构的变化,以及临床诊断,将具有极其重要的意义。 神经环路功能变化的实时在体监测是研究脑网络不可或缺的手段,曾绍群等评述了基于声光偏转器的快速无惯性随机扫描双光子显微成像技术的研究进展及发展趋势,指出该技术的进一步发展将为神经活动观测提供一种全新的方法,从而极大地推动脑科学研究的发展。 针对哺乳动物全脑的神经元网络成像,龚辉等从空间分辨率、探测范围、数据配准和成像速度等方面评述了光学显微水平全脑成像方法的研究进展,并讨论所面临的挑战。他们指出,要在全脑尺度获取突起水平分辨率的结构与功能数据,光学成像方法最为成熟。华中科技大学研制的MOST系统,率先获得了一系列高分辨率的完整大脑解剖数据集,该成果将在神经元网络的构建和脑功能与疾病研究中发挥重要作用。 我们期待更多、更好的有关脑成像与脑网络的论文发表,以更广泛和深入地促进我国脑科学研究领域的学术交流。     

Creating a human brain proteome atlas--13th HUPO BPP Workshop March 30-31, 2010, Ochang, Korea

The HUPO Brain Proteome Project (HUPO BPP) held its 13th workshop in Ochang from March 30th to 31st, 2010 prior to the Korean HUPO 10th Annual International Proteomics Conference. The principal aim of this project is to obtain a better understanding of neurodiseases and aging with the ultimate objective of discovering prognostic and diagnostic biomarkers, in addition to the development of novel diagnostic techniques and new medications. The attendees came together to discuss progress in the clinical neuroproteomics of human and to define the needs and guidelines required for more advanced proteomics approaches.     

Clinical aspects of neurodegenerative diseases - 15th HUPO BPP Workshop April 8-9, 2011, Bochum, Germany

The HUPO Brain Proteome Project (HUPO BPP) held its 15th workshop in Bochum, Germany, from April 8th to 9th, 2011 directly after the Proteomic Forum 2011 in Berlin. Like on every spring workshop, the focus was more on clinical aspects, so that especially clinicians participated in this workshop.     

Translational proteomics in neurodegenerative diseases--16th HUPO BPP workshop September 5, 2011 Geneva, Switzerland

The HUPO Brain Proteome Project (HUPO BPP) held its 16th workshop in Geneva, Switzerland, on September 5, 2011 during the 10th HUPO World Congress. The focus was on launching the Human Brain Proteome Atlas as well as ideas, strategies and methodological aspects in clinical neuroproteomics.     

Human Brain Proteome Project – 12th HUPO BPP Workshop 26 September 2009, Toronto,Canada

The HUPO Brain Proteome Project (HUPO BPP) held its 12th workshop in Toronto on 26 September 2009 prior to the HUPO VIII World Congress. The principal aim of this project is to obtain a better understanding of neurodiseases and ageing, with the ultimate objective of discovering prognostic and diagnostic biomarkers, in addition to the development of novel diagnostic techniques and new medications. The attendees came together to discuss progress in the human clinical neuroproteomics and to define the needs and guidelines required for more advanced proteomic approaches.     

Creating a human brain proteome atlas--14th HUPO BPP workshop September 20-21, 2010, Sydney, Australia

The HUPO Brain Proteome Project (HUPO BPP) held its 14th workshop during the HUPO 9th Annual World Congress in Sydney, Australia. The principal aim of this project is to discover prognostic and diagnostic biomarkers associated with neurodegenerative diseases and brain aging, with the ultimate objective of obtaining a better understanding of these conditions and creating roads for the development of novel diagnostic techniques and effective treatments. The attendees came together to discuss progress in the human clinical neuroproteomics and to define the needs and guidelines required for more advanced proteomics approaches.     

不同浓度中药怀牛膝加黄芪煎液对重型颅脑损伤大鼠脑组织含水量及AQP4表达的影响

目的观察低、中、高不同浓度中药怀牛膝加黄芪煎液对重型颅脑损伤大鼠脑组织含水量及水通道蛋白4(AQP4)表达的影响,探讨其治疗重型脑损伤性脑水肿最佳用药浓度及机制。方法将SD大鼠65只随机分为假手术组(5只),模型组(15只),低浓度怀牛膝加黄芪组(A组)15只,中浓度怀牛膝加黄芪组(B组)15只,高浓度怀牛膝加黄芪组(C组)15只,采用改良后Feency’s方法建立大鼠重型颅脑损伤模型。分别在1、3、7天3个时间点每组各取5只大鼠测定脑组织含水量,HE染色观察脑组织变化情况,并采用免疫组化方法检测脑组织AQP4的表达。结果模型组大鼠重型颅脑损伤后各时间点脑组织含水量、损伤灶周围AQP4的表达均高于假手术组(P0.05),HE染色观察发现模型组的脑组织肿胀水肿明显;A、B组各时间点脑组织含水量、AQP4表达水平与模型组相比较无明显降低(P0.05),HE染色观察发现与模型组基本一致;C组各时间点脑组织含水量、AQP4表达水平均较模型组降低(P0.05),HE染色观察发现与模型组比较,脑组织水肿情况有所改善。结论 C组改善重型颅脑损伤后引起的脑水肿效果最明显,其作用机制可能与减少AQP4在损伤脑组织中的表达、减轻脑细胞损害有关。     

Temporal Profiles of Proteins Responsive to Transient Ischemia

The responses of long and short half-lived proteins to ischemia were measured in rat brain during 6 days of recovery from 30 min of transient forebrain ischemia produced by four-vessel occlusion. At the end of the ischemic interval, the neocortical activities of four vulnerable enzymes [ornithine (ODC) and S-adenosylmethionine (SAMDC) decarboxylases, and RNA polymerases I and II] were unchanged, but within 30 min of reperfusion, their activities dropped by 25-50%. The loss of substance P in the striatum and substantia nigra was slower, reaching about 50% by 12 h. On the other hand, the activities of 5 long half-lived enzymes did not change in the neocortex at 5 and 15 h of reperfusion and regional protein concentrations were essentially unaffected over 6 days survival. The rate and extent of normalization of the amounts or activities of the vulnerable proteins varied. RNA polymerase II and ODC activities were restored within 4 h, and ODC showed a biphasic increase in activity, with peaks at 10 h and 2-3 days. RNA polymerase I and SAMDC activities were restored by 18 h and 5 days, respectively, whereas substance P concentrations did not completely recover, even at 6-15 days. The greater the regional reduction of blood flow during ischemia, the larger the net change (gain or loss) of SAMDC or ODC activity and the longer the time required to normalize the activities of these enzymes. The average rate of proteolysis, assessed by measuring the rate of clearance of 14C from protein prelabeled with [14C]bicarbonate, was abnormal during the first 2 days of reperfusion. Postischemic changes in both protein synthesis and degradation could affect the amounts of some of the proteins responsive to transient ischemia.     

Regional Distribution and Production Rate of 3-Methoxy-4-Hydroxyphenylethyleneglycol Sulphate (MHPG-SO4) in Rat Brain

The levels of noradrenaline (NA) and 3-methoxy-4-hydroxyphen-ylethyleneglycol sulphate (MHPG-SO₄) in 15 brain regions showed a parallel distribution in male Wistar rats. The differences in regional distribution of MHPG-SO₄ were similar to those in the rate of NA turnover reported by other investigators. The accumulation rates of MHPG-SO₄ during 45 and 90 min after probenecid injection significantly correlated to the steady state levels of MHPG-SO₄ in nine regions studied. With the results, the regional levels of MHPG-SO, either in untreated or in probenecid-treated rats, are considered to be a useful index of NA turnover.     

基于大脑皮层信息传输的脑电信息图示方法

提出一种基于大脑皮层信息传输的脑电地形图示方法—脑电信息图（Ｂｒａｉｎ ＩｎｆｏｒｍａｔｉｏｎＭａｐｐｉｎｇ － ＢＩＭ） 。其原理是从不同导联电极上采集脑电信号经相空间重建构成头皮电位信息传输矩阵, 将各导联信息传输时间序列的信息传输量和复杂度数据绘制成头皮拓扑分布图, 以直观地反映脑电信息传输分布模式在不同时相中的变化进程。该方法不仅是从新的角度观察大脑功能变化, 而且可克服传统的脑电频谱分段地形图不能表达长程脑电模式变化的不足。对局限性癫痫病患者的试用表明,脑电信息图能较好地反映癫痫发作前后的信息传输动向和复杂度（Ｋｃ 、Ｃ１ 、Ｃ２） 的变化趋势。结果提示,脑电信息图（ＢＩＭ） 有可能成为一种新的观察大脑功能活动的图示诊断方法,值得进一步深入研究。     

Distribution of Guanine Deaminase in Mouse Brain

Guanine deaminase was measured in nearly 100 different areas of mouse brain. The levels are relatively high in all parts of the telencephalon, both gray and white. It is especially active in parts of the olfactory tubercle and amygdala. Levels in the diencephalon range from low to as high as in the telencephalon. Brain areas caudal to the diencephalon, including all parts of the cerebellum, are almost uniformly below the level of detection. The enzyme is also virtually absent from the retina. The extreme range of concentration suggests that guanine deaminase might play a role in the metabolism of a neuroeffector.     

Expression and characterization of a brain-specific protein kinase BSK146 from zebrafish

We have previously identified a novel protein kinase, pk146, in the brain of Tetraodon. In the present study, we cloned the homologous protein kinase gene encoding a protein of 385 amino acid residues from zebrafish. The overall amino acid sequence and the kinase domain of zebrafish BSK146 shows 48% and 69% identity to that of rat sbk, a SH3-containing serine/threonine protein kinase. By whole-mount in situ hybridization and RT-PCR, the expression of bsk146 mRNA was mainly in the brain. To explore the in vivo function of BSK146 during zebrafish development, we used morpholino knockdown approach and found that BSK146 morphants displayed enlarged hindbrain ventricle and smaller eyes. Whole-mount in situ hybridization was further performed to analyze the brain defects in BSK146-MO-injected embryos. The expression of brain-specific markers, such as otx2, pax2.1, and krox20, was found normal in morphant embryos at 24hpf, while expression of pax2.1 exerted changes in midbrain-hindbrain boundary and hindbrain in morphant embryos at 48hpf. These data suggest that BSK146 may play an important role in later ventricle expansion in zebrafish brain development. Although the recombinant BSK146 protein produced in insect cells was active and could phosphorylate both histone H1 and histone 2B, the endogenous substrate of BSK146 in the embryonic brain of zebrafish is not clear at the present time and needs further investigation.     

Purification and Characterization of Myosin from Calf Brain

Actomyosin complex was extracted from the brain cortex in a medium consisting of low salt, ATP, and EDTA, in the presence of protease inhibitors, followed by ammonium sulfate fractionation. Myosin was then purified from the actomyosin. Myosin obtained according to the procedure used was significantly contaminated with actin high (greater than 200,000 dalton) and low molecular weight proteins. Therefore, an alternative method based on affinity chromatography (Blue Dextran/Sepharose) and gel filtration (Sepharose 4B) was developed to purify myosin. This procedure yielded myosin that was greater than 95% pure as judged by electron microscopy and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The subunit composition of purified brain myosin was monitored by sodium dodecyl sulfate-polyacrylamide gel also containing a urea gradient. A closely migrating triplet in the heavy chain and three light chains, LC1, LC2, and LC3, of Mr 21,000, 19,000, and 17,000, respectively, were observed. These findings raise the possibility of the existence of myosin isoenzymes in the brain. Brain myosin formed bipolar thick filaments in 0.075 M KCl and MgCl2. At low ionic strength, the Mg2+-ATPase activity of myosin was stimulated 3- to 3.5-fold in the presence of skeletal muscle f-actin. Brain myosin also hydrolyzed other nucleotides; the rate of hydrolysis was ITP greater than ATP approximately equal to CTP greater than GTP approximately equal to UTP. The substrate (ATP) saturation curve in the presence of 10 mM CaCl2 and 0.6 M KCl was complex and consisted of plateau regions. The Arrhenius plot of the Ca-ATPase data was linear, whereas with ITPase, it was biphasic with a break occurring around 20 degrees C.