EFFECT OF CORTISONE AND THYROXINE ON ACID GLYCOSIDASES IN RAT FOREBRAIN AND CEREBELLUM DURING EARLY POSTNATAL DEVELOPMENT

Abstract— l -Thyroxine (200 μg/100 g B.W.) or cortisone-acetate (5 mg/100 g B.W.), administered for 4 consecutive days, affected several lysosomal enzymes in forebrain and cerebellum of rats during various periods of the first month of postnatal development; their effect was age dependent as well as organ specific. Extending thyroxine or cortisone treatment to 7 days (from day 2 to 9) affected enzyme activity more than the 4-day treatment period.     

SUBCELLULAR DISTRIBUTION OF d-AMINO ACID OXIDASE AND CATALASE IN RAT BRAIN

—Rat brain d -amino acid oxidase was found to be confined to the hindbrain, distributed more or less equally between cerebellum and medulla. Histochemical staining showed the enzyme to be localized largely in the molecular layer of the cerebellum. After fractionation by means of several distinct density gradient centrifugation procedures exploiting differences in sedimentation coefficient or in density or in both, the enzyme was found to be entirely or almost entirely associated with cytoplasmic particles with a median diameter of the order of 0·2 μm, and a median equilibrium density in aqueous sucrose of 1·18. Comparison with the behavior of cytochrome oxidase and of N-acetyl-β-glucosaminidase indicates that these particles are not mitochondria and are unlikely to be lysosomes. They also differ significantly from the bulk of the catalase-containing particles, which on an average appear to be somewhat smaller. The possibility that they might contain some catalase activity, and thereby qualify as ‘peroxisomes’, can however not be excluded. In any case, they differ profoundly from the peroxisomes of liver or kidney.     

ALTERATION OF GABA SYSTEM AND PURKINJE CELLS IN RAT CEREBELLUM BY THE CONVULSANT 3-MERCAPTOPROPIONIC ACID

Abstract— The effect of the convulsant, 3-mercaptopropionic acid (MP) on the content of free amino acids and on the activity of some enzymes related to their metabolism was studied in the rat cerebellum. A decrease in the activity of glutamate decarboxylase (EC 4.1.1.15) and in the level of GABA was found; at the same time, the activity of GABA-aminotransferase (EC 2.6.1.19) was increased. These changes coincided with a profound alteration of the morphology of the Purkinje cells which was related to the dose of MP. These findings, plus some changes in the content of other free amino acids and the activities of related enzymes, suggest that 3-mercaptopropionic acid induces in the cerebellum an imbalance among the amino acids involved in the excitation-inhibition mechanisms.     

THE CHEMICAL COMPOSITION OF MYELIN IN ORGAN CULTURES OF RAT CEREBELLUM

Myelinating organ cultures of rat cerebellum were maintained in vitro for up to 130 days. Extensive myelination took place between 7 DIV (days in vitro) and 28 DIV. Centrifugation of a crude culture myelin fraction on a discontinuous gradient yielded three layers termed light myelin, heavy myelin and membrane fraction, which exhibited an ultrastructure virtually identical to that of comparable layers prepared from surviving littermates. However, culture myelin layers showed a gross deficiency of galactolipids with a relative increase in phospholipids. The 2,3′-cyclic nucleoside-monophosphate phosphodiesterase (CNP) activity was decreased in the culture myelin layers, but not to an extent comparable to the cerebroside deficiency. A form of “slow myelin maturation” takes place in vitro with both myelin cerebrosides and sulphatides increasing in cultures older than 60 DIV. The results indicate that CNS myelination comprises at least two phases, and that the second phase involving galactolipid enrichment of myelin can, under experimental conditions, be partly uncoupled from the first phase without affecting the morphology or ultrastructure of the sheaths.     

SOME EFFECTS OF MONOAMINE OXIDASE INHIBITORS ON THE METABOLISM OF γ-AMINOBUTYRIC ACID IN RAT BRAIN

(1) The inhibitor of γ-aminobutyrate transaminase (GABA-T), amino-oxyacetic acid (AOAA), drastically reduced the activity of GABA-T to 30 per cent of the control value, with a corresponding increase of brain GABA, but had no effect on the activity of glutamate decarboxylase (GAD). (2) The monoamine oxidase (MAO) inhibitors phenelzine, phenylpropylhydrazine and phenylvalerylhydrazine, lowered GABA-T activity to 58, 49 and 48 per cent, respectively; this was associated with a marked elevation of brain GABA. (3) The action of phenelzine and phenylpropylhydrazine in vivo and in vitro could be abolished by pre-treatment of the tissue with the structurally related MAO inhibitors phenylisopropylhydrazine and trans-2-phenylcyclopropylamine. These had no action on the GABA system in vivo, either on the GABA content or on the GABA-T activity. These latter drugs, however, were unable to influence the effects of AOAA either on GABA or on GABA-T. (4) The possible mechanism of action on GABA and the enzyme activities of the GABA system is discussed.     

COMPARATIVE EFFECTS OF HYPOTHYROIDISM, HYPERTHYROIDISM AND UNDERNUTRITION ON THE PROTEIN AND NUCLEIC ACID CONTENTS OF THE CEREBELLUM IN THE YOUNG RAT

Abstract— The effects of hypothyroidism, hyperthyroidism and undernutrition on the development of the protein and nucleic acid contents of the cerebellum were studied in young rats ranging in age from 6 to 35 days. Foetal and neonatal propylthiouracil treatment caused a delayed cell multiplication in the organ but this delay had disappeared at 35 days. As early as the age of 10 days, the total cerebellar RNA and protein contents in these hypothyroid animals were lower than in the normal animals but the mean cellular contents of RNA and protein were not lowered before the age of 21 days. Slight neonatal hyperthyroidism, induced by the daily injection of a relatively small dose of thyroxine, produced an accelerated cell multiplication during the first postnatal week and afterwards a delay in cell proliferation. In the hyperthyroid animals, the mean cellular protein content, initially higher than normal, tended to be lower at 35 days. At this age, the cell number had nearly returned to normal. Undernutrition directly led to a reduced cell proliferation and the reduced cell number still persisted at 35 days. At first, the cells were on the average larger than normal, but the effect on the mean RNA and protein contents per cell was not persistent in the underfed animals.
This study correlates the degree of neonatal hyperthyroidism with the further development of the cell population of the cerebellum and emphasizes the importance of the events which take place just after birth in the cerebellum submitted to an excess or a deficiency of thyroid hormone. In addition, the results are discussed in relation to data concerning the morphogenetic action of thyroid and of underfeeding on the cerebellum.     

雌激素替代治疗对大鼠小脑树突棘素表达的影响

目的研究雌激素替代治疗对大鼠小脑树突棘素表达的影响。方法实验选取SD大鼠制作卵巢切除雌激素替代模型,以免疫组织化学,Western blot观察大鼠小脑中树突棘素的表达及其变化。结果免疫组化检测显示：树突棘素存在于小脑的分子层和颗粒层,蒲氏细胞胞浆中也可见的阳性颗粒。假手术组树突棘素阳性略强于雌激素替代组,但无统计学差异：手术安慰剂组中树突棘素阳性显著弱于其他二组。Western blot结果表明：树突棘素在安慰剂组大鼠小脑中表达最低,与其它二组有显著性差异,假手术组和雌激素替代组中树突棘素的表达量无显明差异。结论雌激素对维持大鼠小脑树突棘素的正常水平具有重要的作用。     

生长休止蛋白7在大鼠小脑皮质中的免疫细胞化学研究

目的探讨生长休止特定蛋白7(Gas7)在大鼠小脑中的表达定位。方法应用Gas7抗血清,对大鼠小脑组织切片进行免疫组织化学染色。结果在小脑皮质分子层可见大量的Gas7阳性神经纤维;蒲氏细胞层中,Gas7主要表达在神经元胞膜和部分胞质处;颗粒层中可见Gas7阳性神经纤维。结论Gas7主要在小脑神经元的定位特征可能与Gas7促进神经元和神经突起发育的调节功能有关。     

ON THE INACTIVATION OF ASCORBIC ACID OXIDASE

1. In the absence of protective agents, highly purified ascorbic acid oxidase is rapidly inactivated during the enzymatic oxidation of ascorbic acid under optimum experimental conditions. This inactivation, called reaction inactivation to distinguish it from the loss in enzyme activity that frequently occurs in diluted solutions of the oxidase prior to the reaction, is indicated by incomplete oxidation of the ascorbic acid as measured by oxygen uptake; i.e., "inactivation totals." 2. A minor portion of the reaction inactivation appears to be due to environmental factors such as rate of shaking of the manometers, pH of the system, substrate concentration, and oxidase concentration. The presence of inert protein (gelatin) in the system ameliorates the environmental inactivation to a considerable extent, and variation of the above factors in the presence of gelatin has much less effect on the inactivation totals than in the absence of gelatin. 3. A major portion of the reaction inactivation of the oxidase appears to be due to some factor inherent in the ascorbic acid-ascorbic acid oxidase-oxygen system, possibly a highly reactive "redox" form of oxygen other than H₂O₂ or H₂O. The inactivation cannot be attributed to dehydroascorbic acid, the oxidation product of ascorbic acid. 4. Small amounts of native catalase, native peroxidase, native or denatured methemoglobin, and hemin when added to the system, markedly protect the oxidase against inactivation. Cytochrome c has no such protective action. Likewise proteins such as egg albumin, gelatin, denatured catalase, or denatured peroxidase show no such protective action. 5. None of the protective agents mentioned above affect the initial rate of oxygen uptake or change the total oxygen absorbed for complete oxidation of the ascorbic acid, and hence do not act by removal of hydrogen peroxide, per se. 6. Sodium azide and hydroxylamine hydrochloride which inhibit catalase and peroxidase activity also inhibit the protective action of these iron-porphyrin enzymes.     

光对水稻(Oryza sativa)幼苗乙醇酸氧化酶活性的影响

水稻黄化幼苗用白光照射3～5小时后可诱导出乙醇酸氧化酶活性。绿色水稻幼苗在黑暗中乙醇酸氧化酶活性逐渐下降以至消失,再给以照光又恢复酶活性。亚胺环己酮对光的诱导及再诱导均有抑制作用。在黑暗中真空渗入乙醇酸于黄化幼苗可诱导出乙醇酸氧化酶活性,渗入乙醇酸加FMN能使酶活性迅速增强。弱的白光以及红、绿,蓝光均有诱导作用。因此认为光的诱导作用是使黄化幼苗形成乙醇酸——作为诱导物,以诱导乙醇酸氧化酶的新合成。光也可以加速叶组织内FMN的合成,从而提高乙醇酸氧化酶的活性。     

METABOLISM OF THE ASPARTYL MOIETY OF N-ACETYL-l-ASPARTIC ACID IN THE RAT BRAIN

The metabolism of N-acetyl-l -aspartic acid (NAA) was studied in rat brain. [Aspartyl-U-¹⁴C]NAA was metabolized predominantly by deacylation. Studies of NAA biosynthesis from l -[U-¹⁴C]aspartic acid have confirmed previous reports that NAA turns over slowly in rat brain. However, intracerebrally-injected N-acetyl-l -[U-¹⁴C]asparticacid was rapidly metabolized. Exogenous NAA appears to be taken up rapidly into a small, metabolically-active pool. This pool serves as substrate for a tricarboxylic acid cycle associated with the production of glutamate for the biosynthesis of glutamine. The bulk of the NAA content in brain appears to be relatively inactive metabolically.     

THE EFFECT OF MONOAMINE OXIDASE INHIBITORS ON SOME ARYLALKYLAMINES IN RAT STRIATUM

The trace amines phenylethylamine, tryptamine, p-tyramine and m-tyramine have been measured in the striatum of both control and MAO-treated rats. Dose-response and time-response studies have been carried out with clorgyline and deprenyl, inhibitors which preferentially inhibit the A and B forms of MAO, respectively, and with tranylcypromine and phenylethylhydrazine, which are used clinically in the treatment of depression. Phenylethylamine was increased by 1 mg/kg of deprenyl, but was unaffected by clorgyline at doses up to 50 mg/kg, while the tyramines and tryptamine were increased by low doses of clorgyline, but were increased only by much greater doses of deprenyl than those required to affect phenylethylamine. Phenylethylamine is oxidized by the B form of MAO, but tryptamine and the tyramines appear to be oxidized by both A and B MAO. The observed proportional increases in trace amine levels are much greater than those observed for the classical neurotransmitters, noradrenaline, dopamine and 5-hydroxytryptamine. As these increases are differential, selective manipulation of trace amine concentrations is possible.     

THE POSTNATAL DEVELOPMENT OF CATECHOL-O-METHYL TRANSFERASE IN THE RAT BRAIN

Abstract— The postnatal development of three enzymes in the rat forebrain was studied. When expressed per tissue weight the catechol- O -methyl transferase (COMT) increased 2-fold from birth to adult age, the lactate dehydrogenase (LDH) 4-fold and the monoamine oxidase (MAO) 12-fold. Expressed per mg protein the increase in the enzyme activities in the subcellular fractions which contained the main part of the different enzymes was still 2–4-fold for COMT and LDH while for MAO it was 4-fold.
There was a relative increase in the COMT activity in the P₂ fraction (synaptosomes and mitochondria). This increase was identical with a corresponding increase in LDH activity and protein and was probably due to growth of nerve terminals. The COMT in the cytoplasm of the synaptosomes showed the same increase relative to the proteins as did the 'free' cytoplasmic enzyme.
The conclusion is drawn that the enzymes in the rat brain show a certain degree of development during brain growth. An additional increase of some enzymes is due to the development of specialized structures such as mitochondria and nerve terminals with synapses. COMT is not related to any such specialized structure.     

角蛋白15在大鼠皮肤发育中表达的研究

目的研究角蛋白15(K15)在大鼠皮肤发育中的表达状况,定位表皮干细胞.方法以不同年龄大鼠背部皮肤为标本,用组织学方法,观察出生后大鼠皮肤的形态发育变化;以K15单克隆抗体为一抗,进行免疫组织化学染色,观察K15在大鼠皮肤中的表达状况.结果(1)组织学方法显示,随着年龄的增长,大鼠背部表皮细胞层数逐渐变少;在毛囊的生长周期中,以隆突区为界,毛囊上段为恒定区,下段呈周期性变化(2)免疫组化染色显示,毛囊隆突区细胞胞浆表达K15,随年龄的增长,K15阳性细胞出现在毛母质细胞区、毛囊外根鞘和表皮基底层.结论表皮干细胞位于毛囊隆突区,与表皮的更新和毛囊的周期性变化有关.     

COMPARTMENTATION OF AMINO ACID METABOLISM IN THE RAT POSTERIOR PITUITARY

—Isolated rat posterior pituitary glands were incubated with [¹⁴C]glucose or [¹⁴C]acetate and the incorporation of radioactivity into several amino acids was followed. The results indicated that radioactivity was incorporated from [¹⁴C]glucose into a large pool of glutamate which appeared to be responsible for a large proportion of GABA synthesis in the gland. The specific activity of glutamine was always less than that of glutamate when [¹⁴C]glucose was the precursor employed, whereas [¹⁴C]acetate labelled a glutamate pool which had approximately the same specific activity as that of glutamine. The results are discussed with reference to the compartmentation of amino acid metabolism in the nervous system.     

DISTRIBUTION AND CELLULAR LOCALIZATION OF ASCORBIC ACID OXIDASE IN THE MAIZE ROOT TIP

Mertz , Dan . (U. Missouri, Columbia.) Distribution and cellular localization of ascorbic acid oxidase in the maize root tip. Amer. Jour. Bot. 48(5): 405–413. Illus. 1961.—Ascorbic acid oxidase has been identified by its various properties in homogenates of the maize root tip. Following centrifugal fractionation of the gross homogenate, approximately 30% of the total oxidase activity was found in the soluble fraction, while roughly 70% was bound to the cell wall debris. Quantitative measurements of serial segments revealed that the bound oxidase per cell increases with cell elongation. The very striking parallelism of the bound oxidase activity with that of cell elongation suggests that ascorbic acid oxidase may in some way participate in growth of the cell wall, and have very little to do with cellular respiration.     

BIOCHEMICAL DEVELOPMENT OF RAT FOREBRAINS IN SEVERE PROTEIN AND ESSENTIAL FATTY ACID DEFICIENCIES

The effect of a low-protein diet (6 calorie-% protein) and a low essential fatty acid diet EFA (0.1 calorie-% EFA) on the biochemical composition of the forebrain was compared with that of a control diet (16 calorie-% protein and 3.0 calorie-%: EFA). The low-protein diet was fed from 1 week before mating, while the other two diets were fed for more than two generations before mating. Four litters of each dietary group were assayed at 10, 15, 21, 30 and 120 days of age but only one sample from several litters of newborns. The forebrain growth was retarded between 10 and 15 days of age in the low-protein group, but afterwards the growth was faster than in the control group. Also the low-EFA group showed similar changes though less pronounced with retarded growth between 10 and 15 days of age. In the two deficiency groups the DNA content in the forebrain was reduced, but less than the weight. The gangliosides were used as a marker substance for neuronal membranes. In the low-protein group the normally rapid accretion of gangliosides between 10 and 15 days of age was significantly retarded, but afterwards faster than in the control group. From 30 days of age the ganglioside concentration was significantly higher in the low-protein group than in the control group. The low EFA diet resulted in similar but less pronounced changes than the low protein diet. The cerebroside content was lower in both the low-protein and low EFA groups at all ages than in the control group indicating a lower myelin content. The cerebroside content differed more than any other parameter studied. The findings suggest that severe nutritional deficiencies only delay the development of the neuronal membranes but irreversibly reduce the formation of myelin.     

THE OXIDATION OF GLYCINE BY d-AMINO ACID OXIDASE IN EXTRACTS OF MAMMALIAN CENTRAL NERVOUS TISSUE

Abstract— Glycine was a substrate for d -amino acid oxidase purified from extracts of cat spinal cord and sheep cerebellum. d -Aspartate and N -methyl- d -aspartate were oxidized at a rate similar to that of glycine by the purified sheep cerebellum extract; d -α-alanine and d -serine were oxidized appreciably faster than glycine, while GABA and d -glutamate were not oxidized at a measurable rate. p -Mercuribenzoate and kojate inhibited the oxidation of glycine by the purified sheep cerebellum extract.
d -Amino acid oxidase activity was higher in the grey than in the white matter of cat spinal cord, while the reverse was true for the cerebral cortex; the activity in the cord and cerebral cortex was much lower than that in the cerebellum.