DISTRIBUTION OF SERINE HYDROXYMETHYLTRANSFERASE AND GLYCINE TRANSAMINASE IN SEVERAL AREAS OF THE CENTRAL NERVOUS SYSTEM OF THE RAT

—The regional distributions of serine hydroxymethyltransferase (SHMT) and glycine transaminase (GT) have been determined in five areas of the CNS of the rat. The SHMT activity per mg protein varied in these areas in the following order: medulia-pons and spinal cord > cerebellum > midbrain > telencephalon. The GT activity per mg protein was essentially the same in the four brain areas, whereas, in the spinal cord it was lower. The activity of GT did not correlate with the glycine content (r=?0.45. P > 0.05). However, SHMT activity per mg protein was correlated with the glycine content in four regions (the telencephalon, midbrain, medulla-pons and spinal cord; r= 0.997, P < 0.05). When the activity of SHMT was expressed per relative number of mitochondria, the enzyme levels were correlated with the glycine content in all five areas (r= 0.952, P < 0.05). The distribution of SHMT was determined in the primary subcellular fractions of the CNS. The SHMT activity in these areas of the CNS appeared to be located predominately in paniculate structures, while only 1 to 4 per cent was found in the soluble fraction. The crude nuclear (P₁) and the crude mitochondrial (P₂) fractions contained 90–97 per cent of the activity. Subfractionation of P₂ pellets obtained from the telencephalon, medulla-pons and spinal cord indicated the SHMT activity was localized in both ‘free’ and occluded mitochondria.     

REGIONAL AND SUBCELLULAR DISTRIBUTION OF HOMOCARNOSINE–CARNOSINE SYNTHETASE IN THE CENTRAL NERVOUS SYSTEM OF RATS

Homocarnosine–carnosine synthetase and carnosinase were assayed in homogenates, 100,000 g supernatants, and ammonium sulfate fractions of the supernatants from nine regions of the central nervous system (CNS), as well as subcellular fractions of whole brains. The enzymes were detected in all CNS regions tested, with olfactory bulbs having the highest activities of both enzymes. In the subcellular fractions, the synthetase was found mainly in the cell-sap; carnosinase was detected in all fractions, the highest activity being in the mitochondria. The synthetases from olfactory bulbs, cerebellum and spinal cord have similar K_m's for β-alanine and GABA.     

POSTNATAL CHANGES IN THE LEVELS OF GLYCINE AND THE ACTIVITIES OF SERINE HYDROXYMETHYLTRANSFERASE AND GLYCINE: 2-OXOGLUTARATE AMINOTRANSFERASE IN THE RAT CENTRAL NERVOUS SYSTEM

Abstract— Of the amino acids found in the CNS of 10-day-old rats the concentration of glycine alone was significantly higher in the spinal cord than in all other regions. Spinal levels of glycine, cystathionine, isoleucine and lysine from 1- and 10-day-old rats did not differ significantly from adult values, whereas the levels of most other amino acids, including GABA, glutamate, glutamine and taurine, were higher in the young animals than in the adults. Aspartate was the only amino acid found in lower concentration in the spinal cord of young animals than in adult animals. These and other observations support the conclusion that glycine is used as an inhibitory transmitter in rat spinal cord early in postnatal life. There was a general decrease in the activity of serine hydroxymethyltransferase and a slight increase in the activity of glycine:2-oxoglutarate aminotransferase in the CNS during development. The activity of neither enzyme correlated on a regional basis with the glycine content. The high level of hydroxymethyltransferase activity in the cerebellum of 10-day-old rats suggests that the activity of this enzyme reflects cell growth rate.     

GLYCINE DECARBOXYLATION IN THE CENTRAL NERVOUS SYSTEM

Abstract— The regional and subcellular distribution of the glycine decarboxylation which occurs in the presence of tetrahydrofolate, NAD and pyridoxal phosphate, has been measured in CNS tissue of cat, sheep and rat. The activity appeared similar to that of liver. It was located within mitochondria, and distributed regionally and subcellularly in the same manner as succinate dehydrogenase, a mitochondrial marker. Activity was low in pons, medulla and spinal cord, and was not affected by a number of drugs, some of which excite and some of which depress the activity of the CNS. All evidence suggests that glycine decarboxylation plays no direct role in glycine inhibitory transmission.     

GABA UPTAKE IN RAT CENTRAL NERVOUS SYSTEM: COMPARISON OF UPTAKE IN SLICES AND HOMOGENATES AND THE EFFECTS OF SOME INHIBITORS

Abstract— Fifty-two substances were tested as inhibitors of the uptake of [³H]GABA in slices of rat cerebral cortex. Among GABA analogues tested, only the 2-fluoro, 3-hydroxy and 2-amino compounds had affinities for the uptake mechanism comparable to that of GABA. [³H]GABA uptake was also potently inhibited by p -chloromercuriphenylsulphonate, N -ethylmaleimide, chlorpromazine and haloperidol. No inhibitors were found to act in a competitive manner with respect to GABA. [³H]GABA uptake was also examined in homogenates of cerebral cortex and other regions of CNS. There was a rapid uptake of [³H]GABA into particles when homogenate samples were incubated with the labelled amino acid; this uptake had similar kinetic properties and inhibitor sensitivity to that observed in slices of intact tissue. Density gradient centrifugation experiments indicated that the particles responsible for the uptake of [³H]GABA in homogenates were probably synaptosomes. Uptake of [³H]GABA also occurred in slices and homogenates of rat spinal cord, and evidence was obtained by the simultaneous labelling of homogenates with [¹⁴C]glycine and [³H]GABA that these two amino acids were taken up by different nerve terminals in this region.     

The metabolism in vivo of glycine and serine in eight areas of the rat central nervous system

Abstract— Results of studies designed to estimate the rates at which glycine is derived from various possible sources in discrete areas of the rat CNS are reported. These results suggest that glycine is derived predominantly by de novo synthesis, presumably via the established pathways leading from glucose through serine to glycine. The content of glycine ranged from a low of approximately 0-6 μmol/g in the cerebellum and telencephalon to a high of 5·5 μmol/g in the spinal cord grey matter; however, based on its estimated rate of synthesis from serine, there appeared to be no correlation between the content of glycine and its rate of synthesis in the various areas studied. The flux of glycine from blood into the CNS was slower (0·03-0·15 μmol/g/h depending on the CNS structure) than that of serine (0·15-0·23 μmol/g/h) and both amino acids entered various CNS areas at rates unrelated to their respective tissue contents. These data have been discussed with regard to the putative transmitter function of glycine in the spinal cord and brainstem.     

Serine Transhydroxymethylase Activity in Vertebrate Retina

Abstract: The presence of serine transhydroxymethylase (STHM; EC 2.1.2.1) in crude homogenates of rat, guinea pig and goat retina has been demonstrated. There was a variation in the levels of retinal STHM activity in the three species. Substantial STHM activity was found in all the three retinal preparations in the absence of pyridoxal-5-phosphate in the incubation medium. There was direct correlation ( r = 0.995; p < 0.001) between the STHM activity and the glycine content in rat telencephalon, midbrain, medulla-pons, spinal cord and retina. These findings suggest that STHM is probably an important enzyme for the synthesis of neural glycine in the vertebrate retina.     

EFFECT OF ZUCLOMIPHENE ON CHOLESTEROL FORMATION IN THE DEVELOPING CENTRAL NERVOUS SYSTEM OF THE RAT

Abstract— The effect of zuclomiphene, a hypocholesterolemic agent, on developing rat CNS cholesterol biosynthesis was examined. Sterol content and composition was studied in relation to age in four regions of the CNS, cerebrum, brain stem, spinal cord and cerebellum. Sterol content of all four regions was slightly lower in drug-treated animals than in controls. Brain stem and spinal cord were more susceptible to the effects of zuclomiphene than were cerebrum and cerebellum. Drug treatment resulted in the accumulation of desmosterol and zymosterol (5 x -cholesta-8,24-dien-3β-ol) in all CNS regions. After 15 days of drug treatment, desmosterol constituted more than 50% of the total sterol in the four examined regions. Six to 9% of the total sterol was zymosterol.
Examination by electron microscopy indicated only minimal morphological changes. Occasionally, neuronal membranous cytoplasmic inclusion bodies were evident.     

GLYCINE UPTAKE IN RAT CENTRAL NERVOUS SYSTEM SLICES AND HOMOGENATES: EVIDENCE FOR DIFFERENT UPTAKE SYSTEMS IN SPINAL CORD AND CEREBRAL CORTEX

Abstract— Evidence is presented that glycine is taken up by two different transport systems in rat CNS tissue slices; one system has relatively low affinity for glycine (K_m = 300 μ m ) and predominates in cerebral cortex, cerebellum and mid-brain, the other has a higher affinity for glycine (K_m = 40 μ m ) and is detectable only in spinal cord, medulla and pons. The low affinity transport system appears to be shared by other small neutral amino acids, whereas the high affinity system is very specific for glycine. Both transport systems were shown to be present in particles in homogenates of CNS tissue by incubation with glycine in vitro , and subcellular fractionation studies suggested that synaptosomes were partly responsible for such uptake. Various substances were tested as inhibitors of the high affinity uptake system for glycine in spinal cord slices; the most potent inhibitors were p -chloro-mercuriphenylsulphonate, N -ethylmaleimide, chlorpromazine, imipramine, desipramine, hydrazinoacetic acid and haloperidol. No competitive inhibitors of the high affinity glycine uptake were found. It is suggested that the high affinity transport system is associated with inhibitory synapses where glycine is a transmitter.     

EFFECTS OF 5,6-DIHYDROXYTRYPTAMINE ON MONOAMINERGIC NEURONES IN THE CENTRAL NERVOUS SYSTEM OF THE RAT

—The injection of 50 μg of 5,6-dihydroxytryptamine (5,6-HT) into a lateral ventricle of the rat depleted the spinal cord and various regions of the brain of indoleamines (presumably 5-HT) and 5-hydroxyindole acetic acid. The concentrations of 5-HT were measured by two different methods: the formation of a fluorescent derivative with o-phthalaldehyde, and the native fluorescence in hydrochloric acid. When the results of both methods were compared on the pons and medulla 4 days after injecting 5,6-HT, the loss in indoleamine appeared to be greater when o-phthalaldehyde was used. This suggests that the two methods may be measuring different compounds. According to both methods, the loss of 5-HT persisted for several days after the injection of 5,6-HT, but by 2 months 5-HT concentrations (measured only by the native fluorescence procedure), had recovered to near-normal values. The depletion of 5-HT was most pronounced in regions adjacent to the ventricular system and in the spinal cord. Initially, caudate and septum were more affected on the side of the injection, and later showed some permanent atrophy. The injection of up to 50 μg of 5,6-HT did not lead to any significant loss of noradrenaline or dopamine from the brain, or to any reduction in the activity of the enzyme tyrosine hydroxylase. The drug was a potent inhibitor of the uptake of [³H]5-HT by brain slices, but was less effective in inhibiting catecholamine uptake systems. These observations suggest a preferential action on tryptaminergic neurones. Larger doses of 5,6-HT caused a loss of catecholamines and tyrosine hydroxylase from the brain, and were severely toxic.     

THE REGIONAL DISTRIBUTION OF d-GLYCERATE DEHYDROGENASE AND 3-PHOSPHOGLYCERATE DEHYDROGENASE IN THE CAT CENTRAL NERVOUS SYSTEM: CORRELATION WITH GLYCINE LEVELS

The activities of d -glycerate dehydrogenase, 3-phosphoglycerate dehydrogenase and lactate dehydrogenase have been measured in high-speed supernatant fractions from different regions of the cat CNS. Only d -glycerate dehydrogenase showed any significant regional variation in levels of activity, and this regional distribution correlated well with the regional distribution of glycine. In view of the previous finding that glycine inhibits d -glycerate dehydrogenase of rat cortex in a non-competitive manner suggesting endproduct inhibition (Uhr and Sneddon , 1971) this correlation is considered additional evidence to suggest that d -glycerate may be an important source of glycine in the CNS.     

HIGH AFFINITY AMINO ACID TRANSPORT BY FROG SPINAL CORD SLICES

The characteristics of amino acid uptake by frog spinal cord slices was studied by in vitro incubations in appropriate media. The uptake mechanisms exhibited saturation; kinetic analysis demonstrated 2 distinct systems for the influx of the possible neurotransmitters: GABA, glycine, L-glutamic acid and L-aspartic acid. One system showed a comparatively high substrate affinity (K_m values, 10-26 μM) while the other system had a lower affinity (K_m, 0.4-1.6 mM).-Leucine, an amino acid presumably not a transmitter, was accumulated only by a low affinity mechanism (K_m 1.6 mM). The process responsible for high affinity uptake had many of the properties of an active transport mechanism. These included temperature sensitivity, energy dependence, requirement for Na⁺ ions and inhibition by ouabain. GABA and glycine uptake was inhibited only by closely related amino acids or structural analogues. The influx of L-glutamic acid was competitively inhibited by the presence of L-aspartic acid in the medium; the converse was also demonstrated. Thus, the high affinity uptake system for possible transmitter amino acids in the frog spinal cord closely resembles that described for mammalian CNS tissue. These results are compatible with the assumption that GABA, glycine, L-glutamic acid and L-aspartic acid are neurotransmitters in the amphibian spinal cord.     

A METHOD FOR THE STUDY OF CHOLESTEROL BIOSYNTHESIS IN THE CENTRAL NERVOUS SYSTEM

Abstract—

• 1 After intraperitoneal injection, there is negligible incorporation of [2-¹⁴C]-mevalonic lactone into the CNS of the adult rat.
• 2 Mevalonic lactone injected into the CSF is quickly transferred to blood.
• 3 Mevalonic lactone injected in the cistema magna or the lateral ventricle of the brain does not diffuse readily into the whole CSF. Spinal cord cholesterol is most heavily labelled after intracisternal injection, as is brain cholesterol after intraventricular administration.
• 4 After intraventricular perfusion, the diffusion of mevalonic lactone into the ventricle opposite the side of the injection is increased when the rate of perfusion is doubled from 5 to 10 μ1/hr. After injection, optimal homogeneity is obtained if a large volume (70μl) is administered.
• 5 An increase in the volume of injection from 70 μl to 130μl does not alter the distribution of activity between the left and right ventricles, nor does it increase the diffusion of mevalonic lactone from ventricle to spinal cord CSF.
• 6 The mean yield of mevalonic lactone incorporation into brain cholesterol is much higher after injection than after perfusion of precursor into the lateral cerebral ventricle.

     

Regional distribution of adenosine uptake in guinea-pig brain slices and the effect of some inhibitors: Evidence for nitrobenzylthioinosine-sensitive and insensitive sites?

The accumulation of [2-³H]adenosine was measured in slices prepared from 7 regions of the guinea-pig central nervous system. There was a similar level of uptake in forebrain regions (cerebral cortex, striatum, hippocampus and midbrain), a lower level in the cerebellum, with lowest uptake in the pons-medulla and spinal cord. Uptake in all regions was strongly inhibited by the nucleoside transport inhibitor dipyridamole and by 5-iodotubercidin, an adenosine kinase inhibitor. The activity of adenosine kinase was similar in crude supernatants prepared from 8 regions of the guinea-pig and rat brain, with the exception of the spinal cord (lower activity than other regions in the guinea-pig CNS) and olfactory bulb (higher activity than other regions in the rat CNS). 5-Nitrobenzylthioinosine (NBMPR) and related thiopurines produced about 50% inhibition of adenosine uptake into guinea-pig cerebral cortex slices at 200 nM but increasing the concentration did not produce significant further inhibition. [³H]NBMPR has been proposed as a useful tight-binding ligand for nucleoside transport sites in various tissues but it is suggested that the distribution of such binding sites in different regions of the CNS may not directly reflect the adenosine uptake capacity of these regions1. Data suggest that there may be NBMPR-sensitive and -insensitive sites. Results confirm those of previous studies which suggest that intracellular adenosine kinase plays an important part in the uptake of adenosine in guinea-pig brain. The relatively homogeneous distribution of adenosine uptake activity in the brain contrasts with the heterogeneous distribution of A1-adenosine receptors in the CNS.     

CHANGES OCCURRING IN THE CHEMICAL COMPOSITION OF THE CENTRAL NERVOUS SYSTEM DURING FOETAL AND POST-NATAL DEVELOPMENT OF THE SHEEP

(1) The chemical composition of the CNS (separated into cerebrum, cerebellum, brain stem and spinal cord) was determined in sheep during foetal and post-natal development and in adults. (2) The spinal cord differed from the remainder of the CNS in growing more after the period studied (50-day-old foetuses to 5-week-old lambs) than before it. This was largely attributable to lipid accumulation. (3) Chemical growth (accumulation of DNA, protein and lipid) proceeded linearly in spinal cord, logarithmically in cerebrum and cerebellum while in brain stem growth was described by a sigmoid function. (4) Fat-free dry matter, protein, total lipid, cholesterol and phospholipid concentrations increased progressively in all parts of the CNS but DNA concentrations changed little. In the cerebrum alone there was an increase in DNA concentration during maturation suggesting an increased cell population. Cholesterol was present predominantly in the free form but esters were detected in foetal tissues from 70 up to 120 days gestation. (5) Cerebroside, the characteristic lipid of myelin, increased in concentration soon after 85 days of gestation, up to which point very low values were recorded, the rate varying according to the region of the CNS examined. Rates of increase in total regional cerebroside content were used to identify periods of myelination and the results suggest that there are two periods of peak activity, one about 20 days before birth and the other at 10-20 days after birth. (6) The composition of lipids added during the two phases of myelination and during maturation were characteristically different. In the spinal cord, lipid analyses best reflect changes in myelin composition.     

The expression pattern of Follistatin-like 1 in mouse central nervous system development

Follistatin-like 1 (Fstl1), also named TSC-36 (TGF-β-stimulated clone 36), was first cloned from the mouse osteoblastic MC3T3-E1 cell line and can be up-regulated by TGF-β. To better study the function of Fstl1 during the development of the mouse central nervous system (CNS), we examined Fstl1 expression in the developing mouse CNS, in detail, by in situ hybridization. Our results show that Fstl1 is strongly expressed in the telencephalon, diencephalon, brainstem, limbic system and spinal cord. In the telencephalon, Fstl1 positive cells are mainly located in the ventricular zone (VZ) and the subventricular zone (SVZ); a relatively weak signal was observed in layers II and III of the neocortex at postnatal stages. Fstl1 expression is robust in the developing hippocampus and persists to P20. In the developing diencephalon and hindbrain, abundant Fstl1 signals were also detected in nuclei including the medial habenular nucleus, the medial dorsal nucleus, the cochlear nuclei and so on. In addition, a strong expression of Fstl1 was detected in the thalamencephalic signal center, as well as in the olfactory cortex from E14.5 to P0. Meanwhile, Fstl1 was expressed in the septal area and the cingulate gyrus of the limbic system after birth. A high level of expression was also observed in the ventral horn of the spinal cord. These results indicate that Fstl1 may play an important role during CNS development in the mouse.     

BIPHASIC MYELINATION AND THE FATTY ACID COMPOSITION OF CEREBROSIDES AND CHOLESTEROL ESTERS IN THE DEVELOPING CENTRAL NERVOUS SYSTEM OF THE DOMESTIC PIG

Abstract— The chemical composition of four parts of the CNS (cerebrum, cerebellum, brain stem and spinal cord) was determined in 107 pigs at 11 stages of fetal and postnatal development and also in 6 adults. In cerebrum, cerebellum and brain stem, but not in spinal cord, the rate of increase in weight and the rates of change in lipid content slowed down for a period of about 10 days before and after birth. Cholesterol esters and desmosterol were only found in progressively decreasing amounts during the fetal stages of development and together with DNA these were exceptions to the general increases in the tissue concentrations and total amounts of other components during the period studied.
The onset of myelination, as measured by calculated daily increases in tissue contents of cerebroside took place between 70 and 80 days conceptual age and there were two peaks of activity, the first occurring 2 weeks before and the second 3 weeks after birth. Unlike the rate curve for total spinal cord weight the biphasic accumulation of DNA was not synchronous with myelin lipid accretion and the earlier prenatal DNA peak probably denotes proliferation of oligodendrocytes. The two phases of myelination are discussed in relation to an observed generalized pause in development immediately before and after birth.
Fatty acid analysis of cerebrosides indicated that, in spinal cord, chain elongation and desaturation are associated with myelination and continue with increasing activity until maturity. Consequently there was a progressive decrease in the proportion of saturated fatty acids. The fatty acid components of cholesterol esters in the developing pig were shown to be similar to those found during development in the CNS of other species but different from those found in demyelinating conditions.     

HIGH AFFINITY UPTAKE OF TRANSMITTERS: STUDIES ON THE UPTAKE OF l-ASPARTATE, GABA, l-GLUTAMATE AND GLYCINE IN CAT SPINAL CORD

Abstract— The uptake of l -aspartate, l -glutamate and glycine each appeared to be mediated by two kinetically distinct systems with apparent K_m's of the order of 10 ('high affinity') and 100 μM ('low affinity') in slices of cat spinal cord, whereas the uptake of GABA appeared to be mediated by a single system of high affinity. The high affinity uptake of these amino acids in slices of spinal grey matter was approximately 5 times faster than that in slices of spinal white matter. The high affinity uptake systems in the cord slices survived homogenisation of the tissue under conditions known to preserve nerve terminals. Subcellular fractionation studies indicated that osmotically-sensitive particles of equilibrium density equivalent to that of 1.0 m -sucrose were at least in part responsible for the uptake of these amino acids. Inhibition studies indicated that three structurally specific systems of high affinity transported these amino acids:

• 1 specific for glycine—not inhibited by GABA or any of the other depressant amino acids found in cat spinal cord;
• 2 specific for GABA—not inhibited by glycine, taurine, l -aspartate or l -glutamate and (3) specific for l -aspartate and l -glutamate—not inhibited by glycine or GABA but strongly inhibited by various acidic amino acids such as l -cysteate and l -cysteine sulphinate.

The high affinity uptake of these amino acids was not inhibited by any of the known antagonists of the postsynaptic actions of these amino acids—strychnine (glycine), bicuculline and benzyl penicillin (GABA), methioninesulphoximine and l -glutamate diethyl ester (l -aspartate and l -glutamate). p-Chloromercuriphenylsulphonate strongly inhibited the high affinity uptake of glycine and GABA but was much less effective as an inhibitor of l -aspartate/l -glutamate high affinity uptake. This is in good agreement with microelectrophoretic studies in which this mercurial was found to potentiate depression of neuronal firing induced by glycine and GABA much more readily than excitation induced by l -aspartate or l -glutamate. These findings suggest the importance of high affinity transport processes in the removal of amino acids from the synaptic environment.     

The Acclimation of European Sea Bass (Dicentrarchus labrax) to Temperature: Behavioural and Neurochemical Responses

Studies on fish behavioural and neurophysiological responses to water temperature change may contribute to an improved understanding of the ecological consequences of global warming. We investigated behavioural and neurochemical responses to water temperature in European sea bass (Dicentrarchus labrax) acclimated to three temperatures (18, 22 and 28°C). After 21 d of acclimation, three groups of 25 fish each were exposed to four behavioural challenges (foraging, olfactory, aversive and mirror tests). The expression of choline acetyltransferase (ChAT) was then analysed by Western blotting in CNS homogenates (from a subset of the same fish) as a marker for cholinergic system activity. In both foraging and olfactory tests, fish acclimated to 28°C exhibited significantly higher arousal responses than fish acclimated to lower temperatures. All specimens showed fright behaviour in the aversive test, but the latency of the escape response was significantly less in the fish at 28°C. Finally, the highest mirror responsiveness was exhibited by the fish acclimated to 22°C. As in the case of cholinergic neurotransmission, significantly higher ChAT levels were detected in the telencephalon, diencephalon, cerebellum and spinal cord of fish acclimated to 22 or 28°C in comparison with those maintained at 18°C. Lower ChAT levels were detected in the mesencephalon (optic tectum) at 22 and 28°C than at 18°C. These data indicate that neuronal functions are affected by water temperature. Increases or decreases in ChAT expression can be related to the functional modulation of brain and spinal cord centres involved in behavioural responses to temperature change. Overall, the results of this study suggest that the environmental temperature level influences behaviour and CNS neurochemistry in the European sea bass.     

THE UPTAKE OF GABA INTO RAT SPINAL ROOTS

—Dorsal and ventral roots, dissected from rats anaesthetized with sodium pentobarbitone, accumulated three to four times more GABA than l -glutamate, 1-aspartate or glycine during 30 min incubation at 37°C. GABA was taken up into spinal roots by a structurally specific, sodium-dependent process with an apparent K_m of approx. 3 × 10^?5m . This uptake process appears to be very similar to that described in rat brain, spinal cord and dorsal root ganglia.