Metabolism of Thiamine Triphosphate in Rat Brain: Correlation with Chloride Permeability

Abstract: Our results show that a net synthesis of thiamine triphosphate (TTP) can be demonstrated in vitro using rat brain extracts. The total homogenate was preincubated with thiamine or its diphosphate derivative (TDP), centrifuged, and washed twice. With TDP (1 m M ) as substrate, a 10-fold increase in TTP content was observed in this fraction (nuclear fraction, membrane vesicles). A smaller, but significant, increase was observed in the P₂ fraction (mitochondrial/synaptosomal fraction). In view of the low TTP content of our fractions, it was carefully assessed that authentic TTP was being formed. Incorporation of radioactivity from [β-³²P]TDP and [γ-³²P]ATP in TTP suggests that these two compounds are its precursors. Furthermore, TTP synthesis was inhibited by ADP and relatively low concentrations of Zn²⁺. These results suggest that TTP synthesis is catalyzed by an ATP:TDP transphosphorylase rather than by the cytoplasmic adenylate kinase that may be present in the vesicles. After osmotic lysis of the vesicles at alkaline pH, TTP was recovered in protein-bound form. Concomitantly, a soluble thiamine triphosphatase, with alkaline pH optimum, was also released from the vesicles. No net synthesis could be obtained in the cytosolic fraction or in detergent-solubilized systems. Like TTP synthesis, chloride permeability of the vesicles was increased when the homogenate had been incubated with thiamine and particularly with TDP. Our results suggest a regulatory role of TTP on chloride permeability, but the target remains to be characterized.     

Increased Neopterin Levels in Brains of Patients with Human Immunodeficiency Virus Type 1 Infection

Postmortem levels of native neopterin (D-erythro-neopterin) were measured in cerebral cortical samples from 44 human immunodeficiency virus type 1-infected and eight uninfected, nonneurological control patients. Cerebral cortical gray and white matter neopterin levels for the controls ranged from 0.5 to 7.2 pmol/mg of protein in contrast to neopterin levels in brains of the virus-infected patients, which frequently were more than threefold and occasionally more than 30-fold higher than mean control levels. Cortical neopterin levels did not correlate with severity of the acquired immunodeficiency syndrome dementia complex, but subcortical levels correlated with the presence of active human immunodeficiency virus type 1 infection, as reflected by pathological evidence of multinucleated giant cell encephalitis. Evidence of opportunistic cytomegalovirus infections in approximately 25% of the human immunodeficiency virus type 1-infected patients was associated with enhanced levels of neopterin in frontal cortex.     

Thiamine Deficiency-Induced Partial Necrosis and Mitochondrial Uncoupling in Neuroblastoma Cells Are Rapidly Reversed by Addition of Thiamine

Abstract: Culture of neuroblastoma cells in a medium of low-thiamine concentration (6 n M ) and in the presence of the transport inhibitor amprolium leads to the appearance of overt signs of necrosis; i.e., the chromatin condenses in dark patches, the oxygen consumption decreases, mitochondria are uncoupled, and their cristae are disorganized. Glutamate formed from glutamine is no longer oxidized and accumulates, suggesting that the thiamine diphosphate-dependent α-ketoglutarate dehydrogenase activity is impaired. When thiamine (10 µ M ) is added to the cells, the O₂ consumption increases, respiratory control is restored, and normal cell and mitochondrial morphology is recovered within 1 h. Succinate, which is oxidized via the thiamine diphosphate-independent succinate dehydrogenase, is also able to restore a normal O₂ consumption (with respiratory control) in digitonin-permeabilized thiamine-deficient cells. Our results therefore suggest that the slowing of the citric acid cycle is the main cause of the biochemical lesion induced by thiamine deficiency as observed in Wernicke's encephalopathy.     

Thiamine Triphosphate and Membrane-Associated Thiamine Phosphatases in the Electric Organ of Electrophorus electricus

The main electric organ of Electrophorus electricus is particularly rich in thiamine triphosphate, which represents 87% of the total thiamine content in this tissue. The thiamine pyrophosphate concentration, however, is very low in the eel electric organ and skeletal muscle as compared with other eel or rat tissues. Furthermore, electroplax membranes contain a whole set of enzymes responsible for the dephosphorylation of thiamine tri-, pyro- and monophosphate. Thiamine triphosphatase has a pH optimum of 6.8 and is dependent on Mg2+. The real substrate of the enzyme is probably a 1:1 complex of Mg2+ and thiamine triphosphate. Thiamine pyrophosphatase is activated by Ca2+. The apparent Km for thiamine triphosphate and Vmax are found to be, respectively, 1.76 mM and 5.95 nmol/mg of protein/min. Thiamine triphosphatase activity is inhibited at physiological K+ concentrations (up to 90 mM) and increasing Na+ concentrations (50% inhibition at 300 mM). ZnCl2 (10 mM) inhibits 90% of the enzyme activity. ATP and ITP are also strongly inhibitory. No significant effect of neurotoxins is seen. Membrane-associated thiamine triphosphatase is affected differently by proteolytic enzymes and is partially inactivated by pretreatment with phospholipase C and neuraminidase. The physiological significance of thiamine triphosphatase is discussed in relation to a specific role of thiamine in the nervous system.     

Increased Concentrations of the Neurotoxin 3-Hydroxykynurenine in the Frontal Cortex of HIV-1-Positive Patients

Abstract: Human immunodeficiency virus (HIV)-1-associated dementia is a frequent consequence of HIV infection and is associated with neuronal deficits. Increased concentrations of the kynurenine pathway metabolites 3-hydroxykynurenine (3-HK) and quinolinic acid (QA) may contribute to this neuronal damage. We measured 3-HK concentrations and the activity of its catabolising enzyme, 3-hydroxykynureninase, in postmortem brain tissue from eight controls and 32 HIV-positive patients, including a group that exhibited dementia. 3-HK concentrations were significantly increased (over threefold) in the HIV-positive group when compared with controls. This increase was greater in those patients with dementia, but it was still apparent in the nondemented cases. 3-Hydroxykynureninase activity was significantly increased in the HIV-infected group compared with the control values. The effect was apparent in both nondementia and dementia cases, although the latter showed a slightly greater increase. The 3-HK content increase is thus unrelated to a reduction in activity of this enzyme and is likely to reflect an overall increase in the kynurenic metabolic pathway. Elevated levels of the neurotoxin 3-HK may contribute to the neuronal deficits underlying HIV-associated dementia.     

Blood–Brain Transport of Thiamine Monophosphate in the Rat: A Kinetic Study In Vivo

To calculate the kinetic parameters of thiamine monophosphate transport across the rat blood-brain barrier in vivo, different doses of a [35S]thiamine monophosphate preparation with a specific activity of 14.8 mCi.mmol-1 were injected in the femoral vein and the radioactivity was measured in arterial femoral blood and in the cerebellum, cerebral cortex, pons, and medulla 20 s after the injection. This short experimental time was used to prevent thiamine monophosphate hydrolysis. Thiamine monophosphate was transported into the nervous tissue by a saturable mechanism. The maximal transport rate (Jmax) and the half-saturation concentration (Km) equaled 27-39 pmol.g-1.min-1 and 2.6-4.8 microM, respectively. When compared with that of thiamine, thiamine monophosphate transport seemed to be characterized by a lower affinity and a lower maximal influx rate. At physiological plasma concentrations, thiamine monophosphate transport rate ranged from 2.06 to 4.90 pmol.g-1.min-1, thus representing a significant component of thiamine supply to nervous tissue.     

颞叶癫痫脑“默认模式”的fMRI研究

功能磁共振成像(functional magnetic resonance imaging,fMRI)被用于检测静息时脑功能神经网络.作者运用静息fMRI检测海马硬化颞叶癫痫(temporal lobe epilepsy,TLE)脑"默认模式",采用感兴趣区域功能连接分析检测16例TLE患者和16名正常对照静息时脑的"默认模式",并进行组内和组间分析.研究发现,与正常对照相比,TLE静息时海马、颞极、额叶、颞叶、壳核及楔前叶等脑区与后扣带回的功能连接增强.研究结果表明TLE患者的固有脑功能组织模式有可能出现紊乱.这一研究将有助于从脑功能的角度了解癫痫患者某些临床症状的发病机理,为今后癫痫诊治的发展提供一定的帮助.     

Thiamine Triphosphatase in the Membranes of the Main Electric Organ of Electrophorus electricus: Substrate-Enzyme Interactions

The main electric organ of Electrophorus electricus is particularly rich in thiamine triphosphate (TTP). Membrane fractions prepared from this tissue contain a thiamine triphosphatase that is strongly activated by anions and irreversibly inhibited by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS), an anion transport inhibitor. Kinetic parameters of the enzyme are markedly affected by the conditions of enzyme preparation: In crude membranes, the apparent Km is 1.8 mM and the pH optimum is 6.8, but trypsin treatment of these membranes or their purification on a sucrose gradient decreases both the apparent Km (to 0.2 mM) and the pH optimum (to 5.0). Anions such as NO3- (250 mM) have the opposite effect, i.e., even in purified membranes, the pH optimum is now 7.8 and the Km is 1.1 mM; at pH 7.8, NO3- increases the Vmax 24-fold. TTP protects against inhibition by DIDS, and the KD for TTP could be estimated to be 0.25 mM, a value close to the apparent Km measured in the same purified membrane preparation. Thiamine pyrophosphate (0.1 mM) did not protect against DIDS inhibition. At lower (10(-5)-10(-6) M) substrate concentrations, Lineweaver-Burk plots of thiamine triphosphatase activity markedly deviate from linearity, with the curve being concave downward. This suggests either anticooperative binding or the existence of binding sites with different affinities for TTP. The latter possibility is supported by binding data obtained using [gamma-32P]TTP. Our data suggest the existence of a high-affinity binding site (KD of approximately 0.5 microM) for the Mg-TTP complex.(ABSTRACT TRUNCATED AT 250 WORDS)     

低剂量伽玛刀照射癫痫大鼠颞叶神经元超微结构的改变及线粒体形态计量分析

目的观察低剂量伽玛刀照射癫痫大鼠颞叶神经元超微结构的变化,探讨线粒体形态改变程度及性质。方法建立大鼠青霉素局灶性癫痫动物模型,将48只SD大鼠分为对照组（A组）、实验组（癫痫模型组,简称B组）和癫痫后伽玛刀照射组（C组）。照射周边剂量12Gy,等剂量曲线为50％。分别于0．5h～60d后取靶区颞叶皮质区制备电镜样本,透射电镜观察,通过计算机图像分析系统对线粒体形态计量分析。结果A组细胞结构基本正常;B组可见神经元细胞质细胞器明显减少空化,线粒体体密度、数密度、比表面和嵴膜密度较对照组明显减少（P〈0．05）,线粒体平均体积和平均截面积较对照组明显增大（P〈0．05）。C组早期与B组基本一致,细胞质内有少量脂褐素,中期和晚期线粒体的各项参数与A组相差不显著,低剂量伽玛刀照射后早期线粒体的平均体积、平均截面积数密度、比表面与A组相差显著（P〈0．05）,圆球度各组间无明显差异。结论大鼠癫痫发作后其线粒体的形态结构发生明显变化,低剂量伽玛刀照射对神经元的修复有重要作用,本研究认为线粒体参与了癫痫的病理过程。     

Changes of Biogenic Amines and Their Metabolites in Postmortem Brains from Patients with Alzheimer-Type Dementia

Noradrenaline (NA), 3,4-dihydroxyphenylethylamine (dopamine, DA), 5-hydroxytryptamine (serotonin, 5-HT), homovanillic acid (HVA), and 5-hydroxyindoleacetic acid (5-HIAA) were measured in 22 regions of postmortem brains from four histologically verified cases with Alzheimer-type dementia (ATD) and nine histologically normal controls. Compared with the controls, concentrations of 5-HT and 5-HIAA in the ATD brains were significantly reduced in nine regions (superior frontal gyrus, insula, cingulate gyrus, amygdala, putamen, medial and lateral segments of globus pallidus, substantia nigra, lateral nucleus of thalamus) and in eight regions (amygdala, substantia innominata, caudate, putamen, medial and lateral segments of globus pallidus, medial and lateral nuclei of thalamus), respectively. NA concentrations of the ATD brains were significantly reduced in six regions (cingulate gyrus, substantia innominata, putamen, hypothalamus, medial nucleus of thalamus, raphe area). In contrast, significant reductions of DA and HVA concentrations in the ATD brains were found only in putamen and amygdala, respectively. The 5-HIAA/5-HT ratio in the ATD brains decreased significantly in locus coeruleus, while the HVA/DA ratio increased significantly in putamen and medial segment of globus pallidus. These findings suggest that the serotonergic and noradrenergic systems are affected, while the dopaminergic system is relatively unaffected in ATD brains.     

Thiamine and Cholinergic Transmission in the Electric Organ of Torpedo

The electric organ of Torpedo marmorata was found to contain as much as 120 +/- 24 nmol of thiamine per g of fresh tissue. The vitamin was distributed as nonesterified thiamine (32%), thiamine monophosphate (22%), thiamine diphosphate (8%), and an important proportion of thiamine triphosphate (38%). A high level of thiamine triphosphate was found in synaptosomes isolated from the electric organ. In contrast, the synaptic vesicles did not show any enrichment in thiamine, whereas they contained a marked peak of acetylcholine (ACh) and ATP. Thus thiamine seems to be very abundant in cholinergic nerve terminals; its localization is apparently extravesicular, either in the axoplasm or in association with plasma membrane. When calcium was reduced and magnesium increased in the external medium, the efficiency of transmission was diminished, owing to inhibition of ACh release; in a parallel manner the degree of thiamine phosphorylation was found to increase--this condition is known to modify the repartition of ACh between vesicular and extravesicular compartments. Electrical stimulation, which causes periodic variations of the level of ACh and ATP, also caused significant changes in thiamine esters. In addition, related changes of the vitamin and the transmitter were observed under other conditions, suggesting a functional link between the metabolism of thiamine and that of ACh in cholinergic nerve terminals.     

Tyrosine Hydroxylase, Tryptophan Hydroxylase, Biopterin, and Neopterin in the Brains of Normal Controls and Patients with Senile Dementia of Alzheimer Type

The activities of tyrosine hydroxylase and tryptophan hydroxylase, and the concentrations of the biopterin cofactor and the precursor neopterin were measured in 14 regions of postmortem brains from four histologically verified patients of senile dementia of the Alzheimer type (SDAT) and eight histologically normal controls. Neopterin concentrations were measured in the human brain for the first time. The activities of tyrosine hydroxylase and tryptophan hydroxylase in the brains of patients with SDAT were significantly reduced in the substantia nigra and in the lateral segment of the globus pallidus, locus ceruleus, and substantia nigra, respectively. The concentrations of total biopterin in the brains of patients with SDAT were significantly reduced in the putamen and substantia nigra, but the total neopterin concentrations did not change significantly. These results suggest that the reduction in biogenic amines in SDAT might be related to reductions in biosynthetic enzymes associated with biogenic amines, due to destruction of monoaminergic neurons.     

Effect of Nimodipine on the Regional Cerebral Acidosis Accompanying Thiamine Deficiency in the Rat

The effect of the calcium channel blocker nimodipine on the previously described regional cerebral acidosis accompanying thiamine deficiency was investigated. Local cerebral pH (LCpH) and blood flow (LCBF) were separately determined autoradiographically in normal and 16-day thiamine-deficient rats administered the calcium antagonist drug and compared to appropriate controls. Nimodipine did not modify LCpH in normal brain. In thiamine deficiency, nimodipine significantly raised LCpH in 5 of 17 structures evaluated, two of which, the medial dorsal nucleus of the thalamus and the mammillary body, are vulnerable to the development of histological lesions in this condition. Although the calcium blocker augmented LCBF in normal brain, it had no effect on the hyperperfusion already present by day 16 of thiamine deprivation. Thus, the pH changes we are reporting are probably not related to an effect on cerebral perfusion, but could have resulted from an improved ability of the brain to reduce its proton load in the presence of nimodipine. These results may have wider therapeutic implications than in thiamine deficiency alone.     

Reduction of Hippocampal Collapsin Response Mediated Protein-2 in Patients with Mesial Temporal Lobe Epilepsy

Although the syndrome of mesial temporal lobe epilepsy (MTLE) associated with hippocampal sclerosis has been elaborated in recent years, pathogenesis and pathomechanisms are still elusive. Performing protein hunting in hippocampus of patients with MTLE we detected derangement of collapsin response mediated protein-2 (CRMP-2). Hippocampal tissue from controls and MTLEs was taken and two-dimensional gel electrophoresis with subsequent MALDI-MS-characterisation was applied. The proteomic approach identified 13 spots unambiguously assigned to CRMP-2. Three spots at molecular weight 55 kDa showed a significant decrease in MTLE and other 3 spots at 65 kDa showed deranged in MTLE. Immunoblotting revealed two bands at 65 and 55 kDa in the control group whereas the 55 kDa band was extremely low expressed in MTLE. CRMP-2 is required to induce axonal outgrowth and maintaining neuronal polarity in hippocampal neurons and the significant decrease of this protein may represent or underlie impaired neuronal plasticity, neurodegeneration, wiring of the brain in MTLE and may explain abnormal migration. Therefore, the decrease of CRMP-2 may well contribute to the understanding of the still unclear pathomechanisms involved in MTLE.     

扬子鳄胚胎中脑视叶的组织发生

观察了16例不同时间扬子鳄胚胎中脑视叶的组织发生过程。胚胎孵育第6d,三个脑泡明显;孵育第9～10d,中脑泡可分细胞层和边缘层或纤维层,中脑水管未形成;孵育第18d,视叶隆起于中脑背侧,中脑水管形成,视叶分三层;孵育第24d,视叶分5层;孵育第34d,视叶分化为6层;孵育第51d,视叶分化为8层,与初生扬子鳄中脑视叶分层相同。     

Expression Pattern of the Coparyl Diphosphate Synthase Gene in Developing Rice Anthers

Rice anthers contain high concentrations of gibberellins A₄ and A₇. To understand their physiological roles, we examined the site of their biosynthesis by analyzing the expression pattern of a gene (OsCPS) encoding coparyl diphosphate synthase in developing rice flowers. Expression was apparent in the anthers 1–2 days before flowering, and CPS mRNA accumulated in the maturing pollen.     

北草蜥中脑视叶组织学结构观察

用光学显微镜对北草蜥(Takydromus septentrionalis)中脑视叶组织学结构进行了观察。视叶分为背侧的顶盖和腹侧的被盖,两者无明显界限。顶盖处灰质和白质交替排列。由表及里,可分为分子层、外灰质层、浅白质层、中灰质层、中白质层、深灰质层、深白质层和室管膜层。被盖处细胞层次不明显。在视叶的前部有横行的纤维将左右视叶联系起来。左右视叶室与中脑水管以及两视叶间的纵沟在视叶的中、后部相通。同时将北草蜥的中脑与其它低等脊椎动物进行了比较,推测北草蜥在进化上处于较低等地位。     

Prenatal testosterone improves the spatial learning and memory by protein synthesis in different lobes of the brain in the male and female rat

The high density of the steroid hormone receptors in the structures of temporal lobe involved in learning and memory, such as the hippocampus, perirhinal cortex, entorhinal cortex and amigdaloid complex, shows that there must be a direct relationship between gonadal hormones and organizational effects of steroid hormones in those structures during development of the nervous system. The present study was undertaken in order to investigate the effect of testosterone administration during the third week of gestation on the spatial memory formation of the offspring rats and the level of soluble proteins in the temporal lobe and frontal lobe of brain, as evidence of important organizational effects of androgens during prenatal development in brain sexual dimorphism. Animals have received testosterone undecanoate on days 14, 15, 16 and 19, 20, 21 of gestation. Learning and memory tests were started 100 days after the testosterone treatment. At the end of the experiments, the temporal and frontal lobes of brain were removed for assessing the level of soluble proteins. Testosterone treatment significantly improved spontaneous alternations percentage of male offspring in Y-maze task comparative with female offspring and reference memory in radial 8 arm-maze task (decreasing in number of reference memory errors in both male and female offspring groups), suggesting effects of both short and long-term memory. Also, testosterone significantly increased the brain soluble protein level of treated female rats in 14–16 prenatal days compared with the control group as well as the brain soluble protein level of treated male rats. These results suggest that steroid hormones play an important role in the spatial learning and memory formation by means of protein synthesis in different lobes of the brain.     

Phosphorylated Thiamine Derivatives and Cortical Activity in the Baboon Papio papio: Effect of Intermittent Light Stimulation

The effect of intermittent light stimulation (ILS) on the distribution of thiamine derivatives in three brain areas (occipital, motor, and premotor) was compared in photosensitive and nonphotosensitive baboons. ILS induces paroxysmal discharges in the motor and premotor areas of photosensitive animals only. In baboons submitted to ILS, thiamine triphosphate (TTP) decreases in both photosensitive and nonphotosensitive animals; thiamine monophosphate (TMP) increases in photosensitive animals, which present ILS-induced paroxysmal discharges, whereas it is unaffected in nonphotosensitive animals. The variations are the most significant in the occipital (visual) cortex. A consumption of TTP may result from electrical activity induced by light stimulation in the occipital area. No correlation between ILS-induced paroxysmal activity and a decrease in TTP contents was found. However, photosensitive animals are affected differently from nonphotosensitive animals, as their content of TMP in the cerebral cortex increases on stimulation. However, as long as the exact role of thiamine compounds in relation to membrane excitability in the nervous system remains unknown, it is impossible to conclude whether the differences observed in the metabolism of thiamine compounds are the cause or the consequence of the photosensitivity in the baboon Papio papio.     

In Rat Liver Mitochondria All Nucleoside Diphosphate Kinase of the Outer Compartment Is Associated with the Outer Surface of the Outer Membrane

Data on localization of nucleoside diphosphate kinase (NDPK) in the outer mitochondrial compartment are contradictory. We have demonstrated that repeated quintuple wash of a mitochondrial pellet (protein concentration is about 2 mg/ml) solubilized only 60% of total NDPK activity. Since no release of adenylate kinase, the marker enzyme of the intermembrane space, was observed, it was concluded that the solubilized NDPK activity was associated with the outer surface of the outer mitochondrial membrane. Treatment of mitochondria with digitonin solutions in low (sucrose, mannitol) or high (KCl) ionic strength media revealed that solubilization of remaining NDPK activity basically coincided with the solubilization curve of monoamine oxidase, the marker enzyme of the outer mitochondrial membrane, but differed from solubilization behavior of adenylate kinase and malate dehydrogenase. We concluded that the remaining NDPK activity was also associated with the outer mitochondrial membrane and electrostatic interactions were not essential for NDPK binding to mitochondrial membranes. Results of polarographic determination of remaining adenylate kinase and NDPK activities of mitochondria incubated in ice for different time intervals and subjected to subsequent centrifugation suggest that all NDPK activity of the outer compartment of rat liver mitochondria is associated with the outer surface of the outer mitochondrial membrane. We suggest the existence of at least three NDPK fractions. They represent 70, 15, and 15% of total NDPK activity of the outer compartment and differ by tightness of membrane binding.