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.     

POSTNATAL CHANGES IN THE HIGH AFFINITY UPTAKE OF GLYCINE and GABA IN THE RAT CENTRAL NERVOUS SYSTEM

Abstract— High affinity uptake systems for GABA into slices of cerebral cortex and for glycine into slices of spinal cord have been demonstrated in rats of 1 and 10 days postnatal age and compared with the systems in tissue slices from adult rats. For both systems there was an increase in the maximal rate of uptake of the substrate with development. For glycine uptake there was no significant change in apparent K_m during development, whereas there was a four-fold increase in the apparent K_m for GABA uptake. There were some changes with development in the apparent substrate specificity of the two systems suggesting increased specificity with maturation. Bicuculline and strychnine, antagonists of the postsynaptic inhibitory actions of GABA and glycine, produced convulsions in 1-, 2- and 10-day-old rats following intraperitoneal injection of doses somewhat lower than those required to convulse adult rats. These findings are consistent with other evidence that glycine and GABA are functioning as inhibitory transmitters at least as soon as 1 day after birth.     

HIGH AFFINITY UPTAKE SYSTEMS FOR TAURINE IN TISSUE SLICES AND SYNAPTOSOMAL FRACTIONS PREPARED FROM VARIOUS REGIONS OF THE RAT CENTRAL NERVOUS SYSTEM. CORRECTION OF TRANSPORT DATA BY DIFFERENT EXPERIMENTAL PROCEDURES

Abstract— —The uptake of taurine into tissue slices of specific regions of the rat central nervous system (CNS) was compared with the uptake of taurine into synaptosomal fractions prepared from the corresponding regions. Two different techniques for performing control experiments were also compared: procedure I, correction for the uptake of taurine obtained from duplicate incubations but at 2°c and procedure II, correction of taurine uptake into extracellular or extrasynaptosomal space measured by inulin uptake experiments plus correction for diffusion (non-saturable) processes.
Kinetic analyses of the uptake data in tissue slices utilizing the procedure I correction technique indicate that six regions of the rat CNS (spinal cord, diencephalon, cortex, striatum, hippocampus, and midbrain) possess high affinity uptake systems (K_m values approx 60 μM or less). The K_m value for the cerebellum (105.4 ± 15.7 μM) is intermediate between a high and low affinity uptake system while the K_m value for the pons-medulla (210.0 12.4 μM) is considered to be low affinity. When procedure II techniques were utilized for correcting the uptake data all eight regions demonstrated high affinity uptake systems (11.8–73.2μM).
Synaptosomal fractions prepared from the spinal cord, pons-medulla, diencephalon, and midbrain demonstrate high affinity uptake systems (procedure I) for taurine (10.3–47.2 μM) while the hippocampus, cortex, striatum, and cerebellum have intermediate (but still high affinity) values (59.4–96.4 μM). High affinity uptake systems (8.2–79.8 μM) were obtained for all eight regions of the rat CNS when procedure II was utilized for correction of the data.     

METABOLISM OF HEXOSES IN RAT CEREBRAL CORTEX SLICES

Abstract—

• 1 The metabolism of two ¹⁴C-labelled hexoses and one hexose analogue, viz. mannose, fructose and glucosamine, has been compared with that of glucose for slices of rat cerebral cortex incubated in vitro.
• 2 The metabolism of [U-¹⁴C]mannose was essentially identical to that of glucose; oxygen consumption and CO₃ production were similar and maximal at a substrate concentration of 2·75 mM. Incorporation of label into lactate, aspartate, glutamate and GABA was similar for the two substrates at 5·5 mM substrate concentration.
• 3 With [U-¹⁴C]fructose, maximal oxygen consumption and CO₃ production were obtained at a substrate concentration of 11 mM. At 5·5 mM, incorporation into lactate was 5 per cent, into glutamate and GABA 30 per cent, into alanine 63 per cent and into aspartate 152 per cent of that from glucose. Increasing substrate concentration to 27·5 mm was without effect on incorporation into amino acids from glucose and raised incorporation from fructose into glutamate, GABA and alanine to a level similar to that found with glucose; at the higher substrate concentration aspartate incorporation from fructose was 200 per cent and lactate 42 per cent of that with glucose. Unlabelled fructose was without effect on incorporation of radioactivity from [3-¹⁴C]pyruvate into CO₂ or amino acids; it increased incorporation into lactate by 36 per cent. Unlabelled glucose diminished incorporation into CO₂ from [U-¹⁴C]fructose to 35 per cent; incorporation into lactate was stimulated 178 per cent at 5·5 mM fructose; at 27·5 mM it was diminished to 75 per cent.
• 4 By comparison with [1-¹⁴C]glucose, incorporation of radioactivity from [1-¹⁴C]-glucosamine into lactate, CO₂, alanine, GABA and glutamine was very low; incorporation into aspartate was similar to glucose. Thus the metabolism of glucosamine resembled that of fructose. Glucosamine-1-phosphate, glucosamine-6-phosphate, and an unidentified metabolite, all accumulated.

     

NEUROTRANSMITTER UPTAKE INTO SLICES OF RAT CEREBRAL CORTEX IN VITRO: EFFECT OF SLICE SIZE

Abstract— The uptake of [¹⁴C]GABA, [¹⁴C]taurine, [³H] β -alanine and [¹⁴C]dopamine was compared in slices of rat cerebral cortex of three different sizes (0.1 × 0.1 × 2 mm, 0.2 × 0.2 × 2 mm and 0.4 × 0.4 × 2 mm prepared with a mechanical tissue chopper). [¹⁴C]Taurine and [³H] β -alanine uptake increased whereas [¹⁴C]GABA uptake decreased with increasing slice size. [¹⁴C]Dopamine uptake was optimal in 0.2 × 0.2 × 2 mm slices. Increasing slice size was shown to decrease inhibition of [³H] β -alanine and [¹⁴C]GABA uptake by l -2,4-diaminobutyric acid. Lactate dehydrogenase activity increased with increasing slice size indicating decreased tissue damage or increased cellular integrity. The possibility that varying slice size can be used to distinguish between neuronal and glial uptake is discussed. It is suggested that taurine uptake in the cerebral cortex is predominantly glial.     

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.     

REGIONAL DISTRIBUTION AND PROPERTIES OF THE GLYCINE CLEAVAGE SYSTEM WITHIN THE CENTRAL NERVOUS SYSTEM OF THE RAT: EVIDENCE FOR AN ENDOGENOUS INHIBITOR DURING IN VITRO ASSAY

—The activity of the glycine cleavage system (GCS) was determined in homogenates from five specific regions of the rat CNS (telencephalon, midbrain, cerebellum, medulla-pons, and spinal cord). An inverse trend was noted between the glycine content and the specific activity of the GCS in the regions. A 25-fold range in the enzyme activities was found between the telencephalon (highest) and the spinal cord (lowest). The properties of the GCS activity in CNS homogenates agreed with those properties previously described for this system in partially purified preparations of liver and brain mitochondria (Kikuchi , 1973; Bruin et al., 1973). Within the CNS homogenates, the liberation of CO₂ from the carboxyl carbon of glycine was quantitatively coupled to the formation of serine. The presence of an endogenous inhibitor(s) within neural tissues was suggested by the non-additivity of the activities when homogenates from the various regions were combined. Moreover, homogenates of CNS tissue inhibited the GCS activity of liver homogenates, and an inverse relationship was found between the level of GCS activity in a given region of the CNS and its ability to inhibit the GCS activity of liver homogenates. This inhibition of liver activity was greatest when liver was incubated with homogenates of spinal cord (86%) and lowest when incubated with homogenates of telencephalon (20%). Because of this endogenous inhibition, the apparent activity of the GCS measured in vitro may not reflect the contribution of this enzyme system in the metabolism of glycine in vivo. Although the significance of this inhibition is not known, a possible role is discussed for the regulation of the levels in glycine and one-carbon pools within the CNS.     

DEMONSTRATION OF HIGH AFFINITY HEXOSE UPTAKE IN CEREBRAL CORTEX SLICES

Abstract— The high-affinity glucose transport system ( K _m 0.2–0.4 m m ), previously detected in synaptosome preparations, has now been demonstrated to be present in slices of the cerebral cortex incubated in vitro. The kinetic properties of this undirectional uptake process in slices were similar to those exhibited by synaptosomes. The results are discussed with respect to the possible sites of the high affinity and low affinity glucose transport processes in the brain.     

POSTNATAL CHANGES IN THE POTASSIUM-STIMULATED, CALCIUM-DEPENDENT RELEASE OF RADIOACTIVE GABA AND GLYCINE FROM SLICES OF RAT CENTRAL NERVOUS TISSUE

—Using a simple apparatus designed to perfuse nervous tissue mini-slices retained on glass fibre filter discs, slices of adult (13 week) rat cerebral cortex and spinal cord were shown to release radioactive GABA and glycine, but not 2-amino-isobutyric acid, in response to increased potassium ion concentration of the perfusing medium. A major portion of this potassium-stimulated release was dependent upon the presence of calcium ions in the perfusing medium. Slices of cerebral cortex and spinal cord from rats of 1 day and 10 days postnatal age showed potassium-stimulated, calcium-dependent release of radioactive GABA and glycine respectively. These findings are consistent with other evidence that GABA and glycine are functioning as inhibitory transmitters in rats at least as soon as 1 day after birth.     

EVIDENCE FOR THE HETEROGENEITY OF L-2,4-DIAMINOBUTYRIC ACID UPTAKE IN RAT CORTEX

The uptake of L-[³H]DABA by rat cerebral cortex slices was studied. Analysis of the kinetic data obtained provides evidence that DABA entry is mediated by both high and low affinity carriers. When cortical slices were incubated in the presence of equimolar [³H]DABA and [¹⁴C]GABA the ratio of entry of the two radionuclides was found to depend upon the loading concentration. The specificity of the uptake of 1 μM and 1 mM-L-DABA was examined: GABA and DABA were relatively potent inhibitors of 1 μM-DABA uptake whereas an equal concentration of histidine did not produce significant inhibition. In contrast, DABA and histidine were markedly more potent as inhibitors of 1 mM-DABA uptake than was GABA. It is concluded from these experiments that L-DABA is transported into cortical slices by a carrier which has high affinities for both DABA and GABA and by a second lower affinity carrier which prefers DABA as a substrate to GABA. On the basis of a comparison of the effects of inhibitors on [³H]DABA and [³H]GABA uptake it is estimated that approx 26% of DABA uptake at 1 μM does not occur by the high affinity carrier whereas at 1 mM-DABA this proportion rises to 62–67%.     

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.     

UPTAKE AND RELEASE OF TAURINE FROM CEREBRAL CORTEX SLICES AND THEIR SUBCELLULAR COMPARTMENTS

—Cortex slices, synaptosomes and C-6 glioma cells were used to study [³⁵S]taurine uptake and its electrically-stimulated release. After exposure to taurine at two concentrations, the synaptosome preparation subsequently derived from the slices contained 41% of the particle-bound taurine and 16% of the total in the tissue. The uptake of [¹⁴C]GABA by C-6 glioma cells was inhibited 3-fold more by β-alanine than by l -DABA, whilst synaptosome preparations showed the opposite pattern, l -DABA being 2 or 3 times more effective than β-alanine. [³⁵S]Taurine uptake inhibition by l -DABA was low for synaptosomes and C-6 glioma, whereas β-alanine showed considerable effect on C-6 glioma (41%) and slices of white matter (ependyma; 50%). Synaptosome preparations showed little effect with β-alanine. When 30 min rather than 5 min incubations were employed, β-alanine depressed [³⁵S]taurine uptake by cortex slices by 30%. Taurine was taken up by a calcium-dependent mechanism and subcellular fractionation indicated that the synaptosome fraction showed losses commensurate with the net taurine release when low stimulation currents were used.     

THE UPTAKE OF LOW CONCENTRATIONS OF LITHIUM IONS INTO RAT CEREBRAL CORTEX SLICES AND ITS DEPENDENCE ON CATIONS

—Rat cerebral slices were incubated in oxygenated Krebs-Ringer bicarbonate glucose saline, and the uptake of Li⁺ was measured after periods of 15 s to 5 min. Saturation was not seen within the concentrations of Li⁺ employed (0·5-2·0 mm ). The half-time of the uptake was 7·9 min. At steady state, after 1 h incubation, the concentration of Li⁺ in the tissue was linearly related to that of the medium (0·5-1·5 mm Li⁺) with a concentration ratio of 1·29–1·66. The concentrations of K⁺ and Na⁺ in the slices incubated without Li⁺ were found to be (μmol/g incubated wt, mean ±s.d .) 63·8 ± 9·6 and 96·2 ± 7·8 respectively (n = 28). In the presence of media with 1·5 mm -Li⁺, the K⁺ and Na⁺ in the slices were 56·2 ± 8·8 and 101·0 ± 7·7 respectively (n = 37). The concentration of Li⁺ in the slices, after 1 h incubation, increased in a non linear way as the concentration of K⁺ in the medium was decreased within a range of 0·10 mm -K⁺. In the absence of K⁺ in the medium the uptake of Li⁺ was approx 50% higher than in the presence of 4·9 mm -K⁺. There was an inverse linear relationship between the concentration of Li⁺ in the slices and that of Ca²⁺ in the medium within the range of 0-5·2 mm (-0·13 mm -Li⁺/mm Ca²⁺). The concentration of Li⁺ in the slices increased by approx 10% when the Mg²⁺ in the medium was increased from 1·3 mm to 2·6 mm . Changes of the concentration of Na⁺ between 120 mm and 170 mm in the medium had no significant effect on the Li⁺ uptake.     

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.     

脑和脊髓中的去甲肾上腺素在大鼠电针镇痛中起不同的作用

中枢神经系统中的去甲肾上腺素(NE)对针刺镇痛究竟起增强或对抗作用,目前的看法还不一致。本工作观察了电针镇痛时大鼠脑和脊髓 NE 及其主要代谢产物3-甲氧基4-羟基苯乙二醇硫酸盐(MHPG·SO_4的含量变化。结果表明:电针刺激使脑和脊髓 NE 含量下降而MHPG·SO_4含量显著升高,提示脑和脊髓 NE 的更新加速。给大鼠脑室或脊髓蛛网膜下腔注射 NE 的直接前体二羟基苯丝氨酸(DOPS)来加强 NE 的功能,或注射α、β受体阻断剂来削弱 NE 的功能,从而观察其对电针镇痛作用的影响,结果表明脑和脊髓中的 NE 在电针镇痛中起着截然不同的作用;脑内 NE 主要通过α受体对抗电针镇痛,此外兼有较弱的通过β受体加强电针镇痛的作用,而脊髓内 NE 则是通过α受体来加强电针镇痛的作用。     

POSTNATAL ALTERATIONS IN EFFECTS OF POTASSIUM ON UPTAKE AND RELEASE OF GLUTAMATE AND GABA IN RAT BRAIN CORTEX SLICES

The uptake and release of glutamate and of GABA, as well as the effect of high potassium concentrations (35 or 80 mM) hereupon, were studied by aid of ¹⁴C-labelled amino acids in brain cortex slices from rats of different ages between birth and adulthood. Both the extent of the uptake (i.e. the tissue/medium ratio of ¹⁴C at, or close to, equilibrium) and the rate of uptake (i.e. the tissue/ medium ratio of ¹⁴C after short (5 min) incubation periods) increased with age. Differences were, however, found between glutamate and GABA, and the extent of the GABA uptake had a distinct maximum during the second postnatal week. At all ages, high concentrations of potassium caused a decrease in the rate of GABA uptake but were without effect on the rate with which glutamate was taken up. The release of the two amino acids occurred with approximately the same half-time (50 min) in slices from animals of at least 14 days of age. Before that time the release of glutamate was somewhat faster, whereas that of GABA was much slower, especially during the first postnatal week (half-time 90 min). The ontogenetic alterations in the effect of excess potassium were complex and varied both between the two potassium concentrations used and between the two amino acids. The results are thus compatible with the existence of different transport systems for the two amino acids, They also suggest that glutamate may exert other functions in addition to its role as a putative transmitter.     

PYRIDOXINE DEFICIENCY AND DEVELOPMENT OF THE CENTRAL NERVOUS SYSTEM IN THE RAT

Pyridoxine (vitamin B₆) deficiency was produced in rats during the period of development of the central nervous system. The levels of pyridoxal phosphate and y-amino-butyric acid in whole brains of these rats were determined, together with the activities of glutamate decarboxylase (EC 4.1.1.15) and γ-aminobutyrate aminotransferase (EC 2.6.1.19). The lowered contents of pyridoxal phosphate and γ-aminobutyrate in the brains confirmed the existence of pyridoxine deficiency. The activity of the glutamate decarboxylase holo-enzyme was decreased, whereas the activity of the apoenzyme was increased. However, there appeared to be no difference in the activity of γ-aminobutyrate aminotransferase. Concomitantly, some electrophysiological parameters, such as EEG and auditory evoked potentials, were analysed. The EEG of pyridoxine-deficient animals showed spike activity, presumably indicative of the existence of seizures in many of the deficient rats. Evoked potentials presented abnormalities in their latency, wave form and response to repetitive stimuli, but the extent to which they were affected depended upon the intensity of the deficiency.