支链氨基酸的抗疲劳作用

支链氨基酸作为必需氨基酸,不仅是合成机体蛋白质的原料,而且具有特殊的生理、生物学功能。其代谢与抗疲劳作用的机理在本文中进行了详细阐述。     

Role of Branched-Chain Aminotransferase Isoenzymes and Gabapentin in Neurotransmitter Metabolism

Abstract: Because it is well known that excess branched-chain amino acids (BCAAs) have a profound influence on neurological function, studies were conducted to determine the impact of BCAAs on neuronal and astrocytic metabolism and on trafficking between neurons and astrocytes. The first step in the metabolism of BCAAs is transamination with α-ketoglutarate to form the branched-chain α-keto acids (BCKAs). The brain is unique in that it expresses two separate branched-chain aminotransferase (BCAT) isoenzymes. One is the common peripheral form [mitochondrial (BCATm)], and the other [cytosolic (BCATc)] is unique to cerebral tissue, placenta, and ovaries. Therefore, attempts were made to define the isoenzymes' spatial distribution and whether they might play separate metabolic roles. Studies were conducted on primary rat brain cell cultures enriched in either astroglia or neurons. The data show that over time BCATm becomes the predominant isoenzyme in astrocyte cultures and that BCATc is prominent in early neuronal cultures. The data also show that gabapentin, a structural analogue of leucine with anticonvulsant properties, is a competitive inhibitor of BCATc but that it does not inhibit BCATm. Metabolic studies indicated that BCAAs promote the efflux of glutamine from astrocytes and that gabapentin can replace leucine as an exchange substrate. Studying astrocyte-enriched cultures in the presence of [U-¹⁴C]glutamate we found that BCKAs, but not BCAAs, stimulate glutamate transamination to α-ketoglutarate and thus irreversible decarboxylation of glutamate to pyruvate and lactate, thereby promoting glutamate oxidative breakdown. Oxidation of glutamate appeared to be largely dependent on the presence of an α-keto acid acceptor for transamination in astrocyte cultures and independent of astrocytic glutamate dehydrogenase activity. The data are discussed in terms of a putative BCAA/BCKA shuttle, where BCATs and BCAAs provide the amino group for glutamate synthesis from α-ketoglutarate via BCATm in astrocytes and thereby promote glutamine transfer to neurons, whereas BCATc reaminates the amino acids in neurons for another cycle.     

支链氨基酸对运动大鼠氨基酸代谢和运动能力的影响

观察了支链氨基酸(BCAA)对大鼠运动能力和血清游离氨基酸代谢的影响。实验用21只雄性wistar大鼠,随机分为3组:正常组、游泳对照组和游泳补充BCAA组。2个运动组每天游泳训练1h,10天后游泳6h,观察补充BCAA对大鼠游泳运动能力和血清游离氨基酸水平的影响。实验结果表明,补充BCAA可明显提高大鼠游泳存活率,抑制血清中必需氨基酸、非必需氨基酸和总氨基酸水平升高,游泳运动后大鼠的血清中乳酸和LDH的升高幅度有所降低,抑制骨骼肌LDH活力的下降。说明补充BCAA可明显提高大鼠的运动能力,减少运动造成的蛋白质分解     

Failure of Glucose and Branched-Chain Amino Acids to Normalize Brain Glucose Use in Portacaval Shunted Rats

Several abnormalities in brain and plasma amino acid concentrations caused by portacaval shunting in rats return toward normal after 4 days of intravenous infusion with either glucose or glucose with branched-chain amino acids. To assess the effect of such treatment on brain energy metabolism, regional brain glucose use was measured using [14C]glucose and autoradiography, 5 weeks after portacaval shunting. In one experiment intravenous glucose or glucose with branched-chain amino acids was given for 4 days. In a separate experiment the treatment was given orally for 2 weeks, and in addition to glucose use, brain monoamines and amino acids were measured. No other food was provided; the rats had free access to water. Normally fed shunted rats and sham-operated rats served as controls. Both types of oral treatment lowered the high concentrations of tyrosine, phenylalanine, and glutamine in plasma and brain. Glucose without amino acids normalized brain tryptophan. Levels of brain norepinephrine, 5-hydroxytryptamine (serotonin), and 5-hydroxyindoleacetic acid were significantly raised after shunting. Treatment had no effect on norepinephrine but the glucose diet brought the indoles into the normal range. In contrast, neither intravenous nor oral treatment affected brain glucose use, which remained depressed by 25-30% in all brain areas examined.     

Release of Neurotransmitter Amino Acids from Synaptosomes: Enhancement of Calcium-Independent Efflux by Oleic and Arachidonic Acids

Abstract: The release of preloaded [¹⁴C]neuroactive amino acids (glutamic acid, proline, γ-aminobutyric acid) from rat brain synaptosomes can occur via a time-dependent, Ca²⁺ -independent process. This Ca²⁺-independent efflux is increased by compounds that activate Na⁺ channels (veratridine, scorpion venoms), by the ionophore gramicidin D, and by low concentrations of unsaturated fatty acids (oleic acid and arachidonic acid). Saturated fatty acids have no effect on the efflux process. Neither saturated nor unsaturated fatty acids have an effect on the release of [¹⁴C]leucine, an amino acid not known to possess neurotransmitter properties. The increase in the efflux of neuroactive amino acids by oleic and arachidonic acids can also be demonstrated using synaptosomal membrane vesicles. Under conditions in which unsaturated free fatty acids enhance amino acid efflux, no effect on ²²Na⁺ permeability is observed. Since Na⁺ permeability is not altered by fatty acids, the synaptosomes are not depolarized in their presence and, thus, the Na⁺ gradient can be assumed to be undisturbed. We conclude that unsaturated fatty acids represent a potentially important class of endogenous modulators of neuroactive amino acid transport in nerve endings and further postulate that their action is the result of an uncoupling of amino acid transport from the synaptosomal Na⁺ gradient.     

肝硬化疾病与支链氨基酸应用研究进展

蛋白质-营养不良是肝硬化病人最常见的并发症之一。肝脏作为蛋白质、脂类和糖代谢的主要器官,病变后的代谢紊乱随之而来。不适宜的蛋白质-能量摄入只会加重病情最后发生肝性脑病等危及生命的严重后果。因此,肝硬化病人的营养管理显得尤为重要,氨基酸的适宜供给无疑是营养治疗的重中之重。已知支链氨基酸能通过刺激肝细胞合成、减少肝损伤后的分解代谢等诸多方式改善营养状况,但是各种试验结果仍存在争议。最佳适宜量究竟多大,安全性范围的设定以及确切的保护机理等问题仍待进一步深入研究。     

Quantitative Analysis of the Whole-Body Metabolic Fate of Branched-Chain Amino Acids

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富含谷氨酰胺和支链氨基酸的肠外制剂对创伤大鼠的效用

研究普通氨基酸注射液 (17AA)与富含谷氨酰胺及支链氨基酸注射液 (2 0AA)对创伤大鼠的营养效用。以Wistar大鼠为创伤模型 ,分别输注两种配方的氨基酸注射液 ,以日立L - 85 0 0氨基酸自动分析仪测定动物血浆游离氨基酸 ,并测定创伤处海绵内羟脯氨酸含量。结果显示创伤后大鼠血浆牛磺酸、谷氨酸、谷氨酰胺和支链氨基酸含量较术前下降 ,但 2 0AA组血浆氨基酸恢复优于 17AA组 ,创伤处海绵内羟脯氨酸含量 2 0AA组显著高于 17AA组 (1.2 9± 0 .2 1vs 0 .83± 0 .16mg/块海绵 ,P <0 .0 5 )。提示 ,创伤后给予富含谷氨酰胺和支链氨基酸的营养制剂能提高血浆氨基酸浓度并有利于创伤的恢复     

Creatine Kinase Activity from Rat Brain Is Inhibited by Branched-Chain Amino Acids in Vitro

Maple syrup urine disease (MSUD) is an inherited metabolic disorder biochemically characterized by the accumulation of branched-chain amino acids (BCAAs) and their branched-chain keto acids (BCKAs) in blood and other tissues. Neurological dysfunction is usually present in the affected patients, but the mechanisms of brain damage in this disease are not fully understood. Considering that brain energy metabolism seems to be altered in MSUD, the main objective of this study was to investigate the in vitro effect of BCAAs and BCKAs on creatine kinase activity, a key enzyme of energy homeostasis, in brain cortex of young rats. BCAAs, but not their BCKAs, significantly inhibited creatine kinase activity at concentrations similar to those found in the plasma of MSUD patients (0.5–5 mM). Considering the crucial role creatine kinase plays in energy homeostasis in brain, if this effect also occurs in the brain of MSUD patients, it is possible that inhibition of this enzyme activity may contribute to the brain damage found in this disease.     

Acute Effect of Ammonia on Branched-Chain Amino Acid Oxidation and Incorporation into Proteins in Astrocytes and in Neurons in Primary Cultures

14CO2 production and incorporation of label into proteins from the labeled branched-chain amino acids, leucine, valine, and isoleucine, were determined in primary cultures of neurons and of undifferentiated and differentiated astrocytes from mouse cerebral cortex in the absence and presence of 3 mM ammonium chloride. Production of 14CO2 from [1-14C]leucine and [1-14C]valine was larger than 14CO2 production from [U-14C]leucine and [U-14C]valine in both astrocytes and neurons. In most cases more 14CO2 was produced in astrocytes than in neurons. Incorporation of labeled branched-chain amino acids into proteins varied with the cell type and with the amino acid. Addition of 3 mM ammonium chloride greatly suppressed 14CO2 production from [1-14C]-labeled branched chain amino acids but had little effect on 14CO2 production from [U-14C]-labeled branched-chain amino acids in astrocytes. Ammonium ion, at this concentration, suppressed the incorporation of label from all three branched-chain amino acids into proteins of astrocytes. In contrast, ammonium ion had very little effect on the metabolism (oxidation and incorporation into proteins) of these amino acids in neurons. The possible implications of these findings are discussed, especially regarding whether they signify variations in metabolic fluxes and/or in magnitudes of precursor pools.     

Astrocyte Leucine Metabolism: Significance of Branched-Chain Amino Acid Transamination

Abstract: We studied astrocytic metabolism of leucine, which in brain is a major donor of nitrogen for the synthesis of glutamate and glutamine. The uptake of leucine into glia was rapid, with a V _max of 53.6 ± 3.2 nmol/mg of protein/min and a K _m of 449.2 ± 94.9 µ M . Virtually all leucine transport was found to be Na⁺ independent. Astrocytic accumulation of leucine was much greater (3×) in the presence of α-aminooxyacetic acid (5 m M ), an inhibitor of transamination reactions, suggesting that the glia rapidly transaminate leucine to α-ketoisocaproic acid (KIC), which they then release into the extracellular fluid. This inference was confirmed by the direct measurement of KIC release to the medium when astrocytes were incubated with leucine. Approximately 70% of the leucine that the glia cleared from the medium was released as the keto acid. The apparent K _m for leucine conversion to extracellular KIC was a medium [leucine] of 58 µ M with a V _max of ∼2.0 nmol/mg of protein/min. The transamination of leucine is bidirectional (leucine + α-ketoglutarate ↮ KIC + glutamate) in astrocytes, but flux from leucine → glutamate is more active than that from glutamate → leucine. These data underscore the significance of leucine handling to overall brain nitrogen metabolism. The release of KIC from glia to the extracellular fluid may afford a mechanism for the "buffering" of glutamate in neurons, which would consume this neurotransmitter in the course of reaminating KIC to leucine.     

健康学龄前儿童血浆游离氨基酸含量研究

采用丹酰氯薄膜层析法分析了６５名３～７岁健康儿童血浆游离氨基酸含量。结果表明：血浆１１种游离氨基酸含量未见性别年龄差异,其正常值可供临床实践应用。血浆游离氨基酸在健康组中显著高于残疾组,提示重度营养不良时,各种氨基酸含量显著下降。     

Ammonia-Induced Release of Neurotransmitters from Rat Brain Synaptosomes: Differences Between the Effects on Amines and Amino Acids

The effect of NH4Cl on release of amine and amino acid transmitters from rat brain synaptosomes was investigated. Ammonia (0.1-10 mM) stimulated the secretion of dopamine and 5-hydroxytryptamine in a dose-dependent manner, in a process which was additive with the effect of 40 mM K+, almost unaffected by withdrawal of Ca2+, and markedly decreased by increasing [H+] in the medium. The NH4Cl-induced dopamine efflux, in contrast to that caused by high [K+]e, was inhibited by benztropine. The release of gamma-aminobutyric acid, aspartate, and glutamate was unaltered by [NH4Cl] less than 5 mM, but somewhat stimulated at higher levels. Transmembrane pH gradient, acid inside, was dissipated by NH4Cl in a concentration-dependent manner and the internal alkalinization correlated with the stimulation of the rate of dopamine efflux. Transmembrane electrical potential was unaffected by [ammonia] less than 5 mM, but a small depolarization was observed at higher levels. It is postulated that ammonia-induced alkalinization of the intrasynaptic storage granules causes extrusion of amines into the cytoplasm and their subsequent leakage into the medium through a reversal of the plasma membrane transporters. A lack of correlation between the release of amino acid neurotransmitters and the dissipation of the delta pH suggests that in rat brain intrasynaptic vesicles, acidic inside, are unlikely to store substantial amounts of gamma-aminobutyric acid, aspartate, or glutamate.     

Derivatives of Aminoquinones with N-protected Amino Acids

The synthesis of derivatives of aminoquinones with N-protected amino acids is reported here. 2-Amino-1,4-benzoquinone and 2-amino-1,4-naphthoquinone, prepared by the azide method in yields of 60 and 95% respectively, were coupled with N-Boc-protected amino acids including glycine, serine, proline and tyrosine, to give the correspondening derivatives. N,N'-Diisopropylcarbodiimide/1-hydroxybenzotriazole or N,N'-dicyclohexylcarbodiimide/HOBt used as coupling reagents provided the expected products in satisfactory yields and purities as supported by TLC, HPLC and spectral analysis.     

Derivatives of Aminoquinones with N-protected Amino Acids

Summary The synthesis of derivatives of aminoquinones with N-protected amino acids is reported here. 2-Amino-1,4-benzoquinone and 2-amino-1,4-naphthoquinone, prepared by the azide method in yields of 60 and 95% respectively, were coupled with N-Boc-protected amino acids including glycine, serine, proline and tyrosine, to give the correspondening derivatives.N, N′-Diisopropylcarbodiimide/1-hydroxybenzotriazole orN, N′-dicyclohexylcarbodiimide/HOBt used as coupling reagents provided the expected products in satisfactory yields and purities as supported by TLC, HPLC and spectral analysis.     

羊胎素中氨基酸测定与评价

用日立L-8800型氨基酸自动分析仪测定了羊胎素中的氨基酸含量。结果表明羊胎素中18种氨基酸总量、必需氨基酸及药效氨基酸含量较高,提示羊胎素在营养学和医学上都有很高的研究价值。     

Effects of Free Fatty Acids on Synaptosomal Amino Acid Uptake Systems

Abstract: The Na⁺-dependent synaptosomal uptakes of proline, aspartic acid, glutamic acid, and γ-aminobutyric acid were strongly inhibited by monounsaturated fatty acids. With oleic acid, half-maximal inhibition was observed at about 15 μM. The Na⁺-independent uptakes of leucine, phenylalanine, histidine, and valine were less sensitive to inhibition by the unsaturated fatty acids. In contrast, the uptakes of all of these amino acids were unaffected by saturated fatty acids. The inhibition of proline uptake (and that of the other Na⁺-dependent amino acids) by oleic acid was overcome by the addition of serum albumin and the data presented further indicate that the previously reported stimulation of proline uptake by albumin could be related to its fatty acid binding properties.     

Effects of Dietary Amino Acids on Brain Amino Acids and Transmitter Amines in Rats with a Portacaval Shunt

The etiologic relationship between disturbances in metabolism of amino acids and amines and hepatic coma was investigated by examining the effects of diets containing various mixtures of amino acids on brain amine metabolism in rats with a portacaval shunt, using a method for simultaneous analysis of amino acids and amines. Rats with a portacaval shunt were fed on four different amino acid compositions with increased amounts of various amino acids suspected to be etiologically related to hepatic coma, such as methionine, phenylalanine, tyrosine, and tryptophan. The animals were killed 4 weeks after operation. During the experimental period, these animals did not become comatose, but exhibited various behavioral abnormalities. Marked increase in the plasma and brain levels of the augmented amino acids, especially methionine and tyrosine, were observed in rats with a portacaval shunt. Brain noradrenaline, dopamine, and serotonin levels were significantly decreased when the brain tyrosine level was increased. These results indicate that in rats with a portacaval shunt the dietary levels of amino acids greatly influence the brain levels of both amino acids and transmitter amines.     

传统藏药材波棱瓜的氨基酸分析

采用FDBN柱前衍生高效液相色谱法测定了藏药材波棱瓜中氨基酸的含量。结果表明,波棱瓜中氨基酸总量为189.4g·kg-1,其中8种必需氨基酸含量占氨基酸总量的33.47%。     

氨基酸的电分析进展

氨基酸电分析研究是生命科学中令人关注的课题。本文就各种氨基酸电分析化学研究的最新进展进行了综述。主要叙述了电活性氨基酸的直接伏安检测和非电活性氨基酸通过衍生化反应和电致化学发光进行的间接检测 ,并对其前景进行了展望。