PURIFICATION OF RAT BRAIN CHOLINE ACETYLTRANSFERASE AND AN ESTIMATION OF ITS HALF-LIFE

—Acetyl-CoA:choline-O-acetyltransferase (ChAc, EC 2.3.1.6) was purified from rat cerebral cortex and its half-life determined. The molecular weight of the enzyme under non-denaturing conditions was estimated by gel filtration to be in the range of 60,000–65,000. On SDS acrylamide gels, the purified enzyme migrated as a single band with a molecular weight estimated as 62,000. The turnover rate of ChAc in the mature rat was determined by the double label method, employing l -[1-¹⁴C]leucine and l -[4,5-³H]leucine. Its half-life under steady-state conditions was estimated to be 5.2 days. As a control, tubulin was isolated from the same preparation and its half-life measured. Under these conditions tubulin exhibited a half-life of 3.8 days.     

PURIFICATION AND PROPERTIES OF CHOLINE ACETYLTRANSFERASE FROM OX BRAIN STRIATE NUCLEI

Abstract—

• 1 Choline acetyltransferase was purified from ox brain striate nuclei by an extraction step at pH 5, cation-exchange chromatography, fractional precipitation with ammonium sulphate, and chromatography on Sephadex G-200. The enzyme was obtained free of deacylases and cholinesterases, at specific activities of 01-0-3 μmol acetylcholine formed per min per mg protein.
• 2 The enzyme was found to be a stable and relatively basic protein, with a molecular weight of 65,000.
• 3 In the catalysed reactions, , k₁, was about four times k₂, and the equilibrium constant was approximately 40. For the forward reaction, the Michaelis constant for each substrate was independent of the concentration of the other (choline = 0-75 mM; acetyl-CoA = 10 μM), whereas in the back reaction one substrate increased the affinity for the other (acetylcholine = 0-75-5 MM; CoA = 25-150 μM).
• 4 CoA inhibited acetylcholine synthesis by competing with acetyl-CoA (K₁, = 16 μM). Acetylcholine slightly inhibited the forward reaction (e.g. 45 per cent in 200 mM) without competing with choline or acetyl-CoA. These data indicate an ordered reaction mechanism; acetyl-CoA probably always binds before choline.

     

CHOLINE ACETYLTRANSFERASE CONTENT IN DISCRETE REGIONS OF THE RAT BRAIN STEM

—Choline acetyltransferase (ChAc) content of 50 separate rat brain stem nuclei and cerebellum removed by microdissection was determined using a sensitive radiometric assay. The distribution of ChAc activity is uneven, with extremely high levels in the cranial motor nuclei and the nucleus salivatorius. Low ChAc concentrations were observed in the cranial sensory nuclei, the nuclei of the reticular formation, the raphe nuclei and the nuclei of the acoustic system. The lowest ChAc levels were measured in the cerebellum. Comparison of the distribution of ChAc with histochemical localization of acetylcholinesterase revealed generally good agreement, and notable exceptions are discussed.     

PURIFICATION OF CHOLINE ACETYLTRANSFERASE FROM DROSOPHILA MELANOGASTER

Abstract— Purification of choline acetyltransferase (ChAc) from heads of Drosophila melanogaster , the richest known source of ChAc, has been accomplished. The stability of the enzyme was preserved by working with a concentration of protein above 0.1 mg/ml. The purification was carried out with ammonium sulfate fractionation and column chromatography on QAE-Sephadex, CoA-Sepharose, G-200 Sephadex, and PCMB-Sepharose. In a procedure using 100 g of Drosophila heads, the specific activity of the crude homogenate was 0.028 μmol/min/mg protein and that of the final product was 43 μmol/min/mg protein, representing a 1500 fold purification. A single protein band, containing all of the ChAc activity, was seen by polyacrylamide gel electrophoresis. A sharp pH optimum at 7.2 was observed. Apparent K_m's for acetyl CoA and choline were 90 μM and 47 μM , respectively. The molecular weight was determined to be 69,000. Isoelectric focusing of extracts of Drosophila heads showed only one peak of choline acetyltransferase activity with an apparent pi of 5.1.     

PURIFICATION AND SOME PROPERTIES OF CHOLINE ACETYLTRANSFERASE (EC 2.3.1.6) FROM BOVINE BRAIN

Abstract— Choline acetyltransferase (ChAc) has been isolated and highly purified from the caudate nuclei of bovine brains. The procedure involved: (1) making an acetone- and chloroform-insoluble powder from the tissue; (2) treating the powder with aqueous buffer and chromatographing the extractable soluble proteins on an organomercurial-sepharose column; (3) removing impurities by passage through columns of DEAE-cellulose and hydroxyapatite; and (4) separation of the heme-containing protein from ChAc by denaturing the former with a mixture of chloroform and n -butanol. The purified ChAc was essentially homogeneous as judged by polyacrylamide gel electrophoresis and exhibited a pH optimum at about pH 7. The partially purified ChAc dissociated into two non-identical subunits when chromatographed with a dilute buffer on Bio-gel A. It did not dissociate when a more concentrated buffer was used. The purified ChAc dissociated on the Bio-gel A even in the presence of a high salt concentration. The dissociation was accompanied by a great loss of enzymatic activity, and we concluded that the presence of other proteins tends to prevent the dissociation of ChAc on gel filtration.     

PURIFICATION AND PROPERTIES OF CHOLINE ACETYLTRANSFERASE FROM TORPEDO CALIFORNICA

Abstract— Choline acetyltransferase (ChAT), the enzyme responsible for the biosynthesis of acetylcholine in nervous tissue, has been purified to apparent homogeneity from the electric organ of the electric fish Torpedo californica using ion-exchange, gel filtration, and hydroxyapatite chromatography. The final preparation had been purified 8570-fold to a specific activity of 30μmol ACh formed/min/mg protein. The purified protein has a pH optimum of 6.8 (phosphate buffer), is activated by low concentrations (ca. 10 m m ) of ammonium or alkylammonium ions, and is strongly inhibited by a sulfhydryl blocking reagent (DTNB). ChAT has a mol. wt. of 63000 when measured by SDS-polyacrylamide gel electrophoresis or gel filtration.
A new method for the rapid assay of ChAT activity is described in which unreacted substrate ([³H]acetyl-CoA) is removed from reaction mixtures by adsorption to charcoal: some advantages of this technique are discussed.     

CHOLINE ACETYLTRANSFERASE LEVELS IN DIENCEPHALIC NUCLEI OF THE RAT

Choline acetyltransferase levels have been measured in specific nuclei of the diencephalon. On the whole, the thalamic nuclei contain higher concentrations of this enzyme than do the hypothalamic and preoptic nuclei. Those nuclei which seem to receive the most dense cholinergic innervation contain the highest levels of choline acetyltransferase.     

REGIONAL CHANGES IN RAT BRAIN CHOLINE ACETYLTRANSFERASE AND ACETYLCHOLINESTERASE ACTIVITY RESULTING FROM UNDERNUTRITION IMPOSED DURING DIFFERENT PERIODS OF DEVELOPMENT1

Abstract— The severity of mental changes in malnourished children is related to both the period of development when the malnutrition occurs and the amount of environmental stimulation. In the present study the effect of imposing protein undernutrition during the period of gestation or postweaning period, and protein-energy undernutrition during the suckling period on cholinergic enzyme activity was investigated in the rat. Six different dietary treatments were given and the activity of ChAc, ChE, and AChE determined in the forebrain, brainstem, and cerebellum of male rats on day 49. Undernutrition imposed during gestation, suckling or postweaning all resulted in changes in cholinergic enzyme activity. The direction and degree of change of enzyme activity depended on the period when undernutrition was imposed as well as the brain region. In the forebrain ChE and AChE activities were altered, in the brainstem, ChAc, ChE and AChE activities were altered, and in the cerebellum ChAc activity was altered. The effect on the activity of the individual cholinergic enzymes was complex and was not the same in the different regions of the brain or even for the same brain region exposed to undernutrition during different periods of development. These results along with earlier work indicate that cholinergic enzyme activity in brain of undernourished rats can be altered by both the period of development when undernutrition is imposed and the amount of environmental stimulation.     

BIOSYNTHESIS OF RAT BRAIN PHOSPHATIDYLCHOLINES FROM INTRACEREBRALLY INJECTED CHOLINE1

Abstract— [Me-³H] Choline was injected intracerebrally into male rats and the brains immediately removed by particular procedures at regular intervals over the first 1200 s. The incorporation of radioactivity into brain phosphorylcholine, CDP-choline and phosphatidylcholines was examined and quantitated, in order to investigate the relative roles of net synthesis and base-exchange reactions for choline incorporation into lipid. The molecular subspecies of phosphatidylcholines were also examined after isotope administration. Phosphorylcholine, CDP-choline and phosphatidylcholines all became labelled as early as 5 s after the administration of labelled choline. The time course of incorporation of choline into brain lipid is biphasic with two flex points at about 20 and 120 s from the injection. The specific radioactivity of different phosphatidylcholines appears to be different at early and later intervals from injection. The suggestion is made that the base-exchange pathway for choline incorporation into lipid might be operative in vivo in early periods after administration.     

ACETYLCHOLINE,CHOLINE AND CHOLINE ACETYLTRANSFERASE ACTIVITY IN THE DEVELOPING BRAIN OF NORMAL AND HYPOTHYROID RATS1

Abstract— Acetylcholine, choline and choline acetyltransferase activity were measured in the whole brains of normal and hypothyroid rats during development. At 1 day postpartum, brain acetylcholine was 73 per cent of adult levels. Propylthiouracil-induced hypothyroidism up to age 20 days did not alter brain acetylcholine concentrations, but at 30 days resulted in significantly decreased levels. At day 1, brain choline was 20 per cent higher than adult levels and decreased between days 8 and 10. In hypothyroid rats this phenomenon did not occur until days 15–20. At day 1 postnatally, choline acetyltransferase activity was only 7 per cent of adult levels, then between days 5 and 20 rose to 77 per cent of adult levels. Beginning at day 8, hypothyroidism resulted in significantly decreased enzyme levels. This effect could be reversed at day 17 by concurrent tri-iodothyronine substitution therapy. In hypothyroid rats, maximum brain choline acetyltransferase activity was 30 per cent less than normal adult levels.     

TOPOGRAPHICAL AND SUBCELLULAR LOCALIZATION OF CHOLINE ACETYLTRANSFERASE IN RAT HIPPOCAMPAL REGION

—Choline acetyltransferase (ChAc) was localized in discrete layers in hippocampus regio superior and in area dentata. The highest activity in hippocampus was found in a narrow infrapyramidal zone, but high activities were also observed in the rest of stratum oriens and in stratum pyramidale. In area dentata the highest activities were found in a narrow supragranular zone and in hilus fasciae dentatae. The localization corresponded very closely to that of acetylcholinesterase. The main part of ChAc activity was confined to the synaptosome fraction. The results are compatible with the view that pyramidal and granular cells are excited by cholinergic boutons, mainly located on the basal or apical dendrites near the somata.     

CHOLINE ACETYLTRANSFERASE ACTIVITY OF HUMAN BRAIN TISSUE DURING DEVELOPMENT AND AT MATURITY

Abstract— (1) On analysis of human brain tissue to determine its choline acetyltransferase (ChAc) content the recovery of enzyme from many regions is very poor when the tissue is acetone-dried and then extracted in the standard manner; for this reason the method is unsuitable when quantitative recoveries are required; it is preferable to prepare sucrose homogenates and activate these with ether before incubation.
(2) From measurements made on homogenates of one adult brain the highest concentration of ChAc was found in the putamen and the lowest in the corpus callosum. The caudate nucleus also had a high activity. As in other mammals, the concentration of enzyme in the cerebellum was found to be low. Analogous results were obtained on a nine-year-old brain but the level of ChAc activity was generally higher than in the older brain.
(3) During foetal development up to thirty-two weeks, ChAc is higher in the cerebellum than in the caudate, the thalamus, corpora quadrigemina, medulla and spinal cord. In all regions the concentration and total amount of enzyme rise fairly steadily up to this time; between 24 and 32 weeks, however, its concentration in the cerebellum and corpora quadrigemina falls slightly although the total increases considerably.
(4) Comparison of the results with the data of other authors indicates general agreement between the distribution of the enzyme in the human brain and its distribution in other mammals, especially the rhesus monkey. The corpus callosum may be an exception since in man it contains little ChAc while in lower mammals it seems to have relatively high concentrations of both ACh and ChAc.
(5) In comparing the values for ChAc reported here with the values for AChE reported by others, three tissues, the globus pallidus, substantia nigra and cerebellum are found to be exceptional in that relative to their concentration in the caudate the activity of ChAc is only about one-tenth that of AChE.     

SEPARATION OF APPARENT MULTIPLE FORMS OF HUMAN BRAIN CHOLINE ACETYLTRANSFERASE BY ISOELECTRIC FOCUSING

Abstract— Choline acetyltransferase (acetyl-CoA: choline O -acetyl transferase; EC 2.3.1.6; ChAc) purified from human brain (basal ganglia) and sciatic nerve were separated into apparent multiple enzyme forms by the method of isoelectric focusing (pH gradient 3-10) on acrylamide gel. A preparative separation of enzyme forms of human brain was accomplished by the column method, by using a sucrose gradient. When each separated form was re-electrofocused, only a portion of the ChAc activity was observed in its original pH region while more than one-half of the recovered activity for each fraction appeared at pH 7.8-8. Gel filtration and kinetic studies of separated forms indicated that the more acidic forms might be aggregates, while more basic forms might be configurational isomers. Human ChAc of sciatic nerve did not exhibit acidic forms on electrofocusing, but otherwise yielded an electrofocusing profile similar to that of human brain. ChAc of rabbit brain and sciatic nerve each exhibited only a single form at pH 7.1 ± 0.2. Although ChAc differs among species, the enzyme of brain and sciatic nerve of the same species cannot be clearly distinguished by electrofocusing.     

PURIFICATION AND PROPERTIES OF CHOLINE ACETYLTRANSFERASE FROM THE NERVOUS SYSTEM OF DIFFERENT INVERTEBRATES

—Choline acetyltransferase has been purified from three invertebrate species, namely snail (Helix aspersa), cockroach (Periplaneta americana) and horse shoe crab (Limulus polyphemus.) All three enzymes followed a Theorell-Chance enzyme mechanism with a sequential addition of the substrates. All three enzymes were activated by sodium and potassium chloride and inhibited by high concentrations of magnesium or calcium chloride. The apparent K_m for choline and acetyl-CoA was for snail: K_mch= 370 μm ,K_mAcetyl-CoA= 51μm ; cockroach:K_mCh= 550 μm , K_mAcely-CoA= 16 μm horse shoe crab:K_mCn= 2700 μm K_mAcctyl-coA= 68 μm CoA inhibited the enzymes competitively with respect to acetyl-CoA and non-competitively with respect to choline. Acetylcholine inhibited the enzymes competitively with respect to choline and non-competitively with respect to acetyl-CoA. All the enzymes were inhibited strongly by 5,5′-dithiobis (2-nitrobenzoate), iodoacetate, acryloylcholine, chloracetylcholine and 3-bromacetonyltrimethyl-ammonium. The enzymes were only weakly inhibited by the styrylpyridine derivatives. The isoelectric points were 5.3 and 5.0 for the horse shoe crab and cockroach enzymes respectively. All three enzymes showed low affinity for a cation-exchanger (CM-Sephadex).     

MULTIPLE FORMS OF CHOLINE ACETYLTRANSFERASE AND THE HIGH AFFINITY UPTAKE OF CHOLINE IN BRAIN OF DEVELOPING AND ADULT RATS

The multiple molecular forms of choline acetyltransferase (ChAT) were analysed during the postnatal development of rat brain. Changes in the sodium-dependent, high affinity uptake of [³H]choline (HAUC) and in the efficiency of conversion of labelled choline into ACh in vitro were also examined. Both mature and 7-day old brain contained three molecular forms of ChAT, with isoelectric points of pH 7.3, 7.9 and 8.3, but the immature brain appeared to contain smaller concentrations of the most basic form of the enzyme (pI = 8.3). Of the total choline uptake measured in slices of frontal cortex, adult samples exhibited a greater proportion of HAUC than 7-day samples and appeared to acetylate more efficiently the [³H]choline accumulated by high affinity uptake. This evidence suggests a basic molecular form of ChAT, appearing in rat brain during postnatal development, might be responsible for the efficient coupling of the high affinity uptake and subsequent acetylation of choline in cholinergic nerve terminals.     

微波辐射对小鼠脑内乙酰胆碱含量及胆碱乙酸转移酶活性的影响

用频率为2450MHz功率密度为10mW/Cm~2(WBASAR约11.4W/kg)的微波(连续波)对置于微波暗室内的昆明种雄性小鼠急性全身照射1小时后,立即按常规方法断头,取脑,制成样品,然后用放射免疫测定法测量小鼠脑内乙酰胆碱(ACh)含量及胆碱乙酰转移酶(ChAT)活性。结果表明:照射组的ACh含量为11.6±1.4pmol/mg(脑鲜重),ChAT活性为45.4±8.7pmolACh/min.mg(脑鲜重);而对照组的分别为16.0±2.1pmol/mg和61.0±13.8pmolACh/min.mg。证明微波照射后可引起动物脑内ACh水平和ChAT活性下降,提示微波辐射对中枢胆碱能系统确有不利影响。     

THE DISTRIBUTION OF CHOLINE ACETYLTRANSFERASE ACTIVITY IN VERTEBRATE RETINA1

Abstract— Choline acetyltransferase (ChAc) activity was determined in retinal layers from 10 vertebrates. In all animals, the highest activity was in the inner plexiform layer, intermediate activity in the inner nuclear and ganglion cell layers, and very low activity in the photoreceptor and outer plexiform layers and optic nerve. The pattern of distribution of enzyme activity within the inner nuclear layer corresponds quantitatively to the distribution of amacrine cells within that layer. A species difference of almost 90-fold was found between the lowest and highest values for ChAc activity in inner plexiform layer. The variation in enzyme activity found among homeotherms in inner nuclear and inner plexiform layers is related to the number of amacrine cell synapses in the inner plexiform layer. But the differences in enzyme activity are generally greater than those which have been found in numbers of amacrine cell synapses between species. The data suggest that cholinergic neurons in retina are to be found predominantly among the amacrine cell types and that not all amacrine cells will be found to be cholinergic.     

在胚胎发育中第三脑室室管膜细胞表达乙酰胆碱转移酶

目的在研究胚胎14天（E14）大鼠端脑放射状胶质细胞与胆碱能前体细胞的关系时发现,第三脑室室管膜细胞和侧脑室脉络丛上皮细胞均表达胆碱能神经元标志性蛋白,即乙酰胆碱转移酶（Choline acetyltransferase,ChAT）。方法E14大鼠端脑冠状连续切片,采用免疫组织化学染色法,分别对放射状胶质细胞标志性蛋白,即波形蛋白（Vi men-tin）和乙酰胆碱转移酶进行免疫组织化学染色。结果E14大鼠端脑室管膜细胞呈单层衬于第三脑室,在背中侧的室管膜细胞由单层增殖为复层。上皮基底部与邻近组织分界不清,这些细胞的游离面胞质呈乙酰胆碱转移酶免疫反应阳性,在邻近的第三脑室周围局部形成乙酰胆碱转移酶阳性细胞群。在相邻切片的同一区域内复层室管膜细胞波形蛋白免疫反应阴性。结论第三脑室背中侧室管膜细胞作为神经干细胞分裂、增殖,产生胆碱能前体细胞,并向第三脑室周围组织迁移,形成基底前脑神经核团的Ch5,Ch6胆碱能神经细胞群。     

CHOLINE ACETYLTRANSFERASE AND ACETYLCHOLINESTERASE IN CULTURED BRAIN CELLS FROM CHICK EMBRYOS

—Dissociated cells from brains of 7-day chick embryos were grown in primary culture for as long as 20 days. Many of the plated cells grew out long processes. Others, which proliferated rapidly, formed a confluent layer of flat cells after 4-6 days. Total DNA and protein increased five-fold, and activity of choline acetyltransferase (EC2.3.1.6) increased about 40-fold in 20 days. Acetylcholinesterase (EC3.1.1.7) increased three-fold by the fourth day of culture and then declined. The pattern of increase for choline acetyltransferase was similar to that for the in vivo development of the enzyme. l -Thyroxine, cyclic AMP (adenosine-3′,5′-monophosphate) or theophylline promoted increased levels of both enzymes by 30-200 per cent. l -Thyroxine also increased the activity of acetylcholinesterase in vivo by 40 per cent. When overgrowth by flat cells was prevented by the addition of 10^-3m -5-flourouracil, there was a decrease in the activity of choline acetyltransferase and an increase in the activity of acetylcholinesterase in comparison to control activities. The addition of 10^-3m -morphine or cocaine produced a 30 per cent elevation in the activity of choline acetyltransferase, but this effect could be mimicked with equimolar concentrations of ammonium ion.     

微波辐射对小鼠脑内乙酰胆碱含量及胆碱乙酸转移酶活性的影响

用频率为2450MHz功率密度为10mW/Cm~2(WBASAR约11.4W/kg)的微波(连续波)对置于微波暗室内的昆明种雄性小鼠急性全身照射1小时后,立即按常规方法断头,取脑,制成样品,然后用放射免疫测定法测量小鼠脑内乙酰胆碱(ACh)含量及胆碱乙酰转移酶(ChAT)活性。结果表明:照射组的ACh含量为11.6±1.4pmol/mg(脑鲜重),ChAT活性为45.4±8.7pmolACh/min.mg(脑鲜重);而对照组的分别为16.0±2.1pmol/mg和61.0±13.8pmolACh/min.mg。证明微波照射后可引起动物脑内ACh水平和ChAT活性下降,提示微波辐射对中枢胆碱能系统确有不利影响。