Developmental Changes of N-Acetyl-L-Aspartic Acid, N-Acetyl-α-Aspartylglutamic Acid and β-Citryl-L-Glutamic Acid in Different Brain Regions and Spinal Cords of Rat and Guinea Pig

Abstract The developmental changes of N -acetylaspartic acid (NA-Asp), N -acetyl-α-aspartylglutamic acid (NA-Asp-Glu), and β -citryl-L-glutamic acid ( β -CG) have been examined in the cerebrum, cerebellum, brain stem and spinal cord of both rat and guinea pig by the gas chromatographic method developed in our studies. A rapid increase in the concentration of NA-Asp was observed postnatally in every region of the rat brain. On the other hand, all regions of guinea pig brain showed the prenatal increases. NA-Asp-Glu showed a different developmental profile, depending on region of the brain, in the two species. The concentration of NA-Asp-Glu remained constantly low during brain maturation in the rostral regions. In the caudal portions it showed a marked increase during maturation and reached a high level in the adult brain. The concentration of β -CG was highest at birth in all regions of rat brain and rapidly decreased by 20 days after birth and remained low thereafter. The rapid decrease occurred in the guinea pig during the foetal period, and β -CG content decreased to an adult level at birth.     

Brain Tubulin Microheterogeneity in the Mouse During Development and Aging

Abstract: Mouse brain tubulin was analyzed on isoelectric focusing gels. High-resolution gels utilizing Bio-Rad ampholytes (pH 4-6) revealed 5-6 bands in the region corresponding to the α-subunit of tubulin and 10 or more for the β-subunit. The same general banding pattern was observed regardless of the method of preparation of the tubulin. Two species prominent in the brains of immature mice, α6 and β2, virtually disappeared during maturation, while species β6 to β10 appeared. No significant changes from the mature pattern were seen during aging (examined at 12, 23, and 30 months of age).     

Identification of an Acidic Dipeptide, β-Aspartylglycine, in the CNS of Aplysia

Abstract: A novel dipeptide, (β-aspartylglycine (β-DG), has been isolated from tissues of the marine gastropod mollusc Aplysia californica. This compound was detected only in Aplysia and not in other molluscs, such as Helix or Mercenaria , or in lobster or frog. Among the Aplysia tissues, the highest levels of β-DG were in nervous tissue and in the reproductive tract. β-DG was assayed by HPLC as the o -phthaldialdehyde derivative and found to be present in all individual, identified neurons at a concentration of approximately 40 pmol/μg protein. The peptide was identified as β-DG by gas chromatography-mass spectrometry (GCMS) using trimethylsilyl derivatives prepared before and after acid hydrolysis. It was further characterized as the β-isomer by TLC, including R_f, atypical blue-gray color with ninhydrin, and a violet color with Cu²⁺-ninhydrin. A fractionation scheme is described whereby acid-soluble tissue constituents can be divided into acidic, neutral, and basic components using mini ion-exchange columns. This partial purification prior to TLC analysis was necessary to remove compounds that interfered with the isolation of β-DG.     

Regulation by Androgen of Levels of the β Subunit of Nerve Growth Factor and Its mRNA in Selected Regions of the Mouse Brain

Abstract: Our previous studies showed that the concentration of the β subunit of nerve growth factor (β-NGF) in nervous tissues is higher in male than in female mice. To identify the brain regions that are affected by androgens, the amounts of β-NGF protein and its mRNAs were measured in male, female, and castrated male CD-1 mice and testicular feminization mice at 3–4 months of age. Among tissues examined, the hypophysis of males contained the highest average concentration of β-NGF protein. In most regions of the brain, individual levels were more variable in males than in females. However, after the castration, such variations in β-NGF levels disappeared. Average levels of β-NGF protein in males were higher in the cerebellum (eightfold higher), olfactory bulb (12-fold higher), hypothalamus (sixfold higher), and hypophysis (72-fold higher) than thope in corresponding regions of females. No significant differences were observed in levels of β-NGF protein in the hippocampus, cerebral cortex, striatum, septum, and brainstem. The castration of male mice caused a reduction in levels of β-NGF protein in the hypothalamus and hypophysis, but not in the cerebellum and olfactory bulb, to the femgle levels. The concentrations of β-NGF protein in testicular feminization mice were similar to those in female CD-1 mice in all regions. The concentrations of mRNA for β-NGF in the olfactory bulb and hypophysis from males were higher than those from females. By contrast, northern blots showed no remarkable differences in the amounts of brain-derived neurotrophic factor and neurotrophin-3 between the two sexes. Thus, in some regions of the brain, the production of β-NGF appears to be regulated by testosterone, but the regulatory mechanisms do not appear to be simple. Our present results indicate that the binding of testosterone to its receptor is an important step in the regulation of the level of β-NGF in these region.     

In Vivo and In Vitro Evidence for the Biosynthesis of Testosterone in the Telencephalon of the Female Frog

Abstract: Neurons and glial cells are capable of synthesizing various steroid hormones, but biosynthesis of testosterone in the CNS has never been reported. The aim of the present study was to demonstrate the synthesis of testosterone in the frog brain. The presence of 17β-hydroxysteroid dehydrogenase (17β-HSD)-like immunoreactivity was detected in a population of glial cells located in the telencephalon. Reversed-phase HPLC analysis of brain tissue extracts combined with radioimmunoassay detection revealed the presence of substantial amounts of testosterone and 5α-dihydrotestosterone (5α-DHT) in the telencephalon where 17β-HSD-positive cells were visualized. In male frogs, castration totally suppressed testosterone and 5α-DHT in the blood and in the rhombencephalon but did not affect the concentration of these two steroids in the telencephalon. Chemical characterization of testosterone in female frog telencephalon extracts was performed by coupling HPLC analysis with gas chromatography-mass spectrometry. Using the pulse-chase technique with [³H]pregnenolone as a precursor, the formation of a series of metabolites was observed, including dehydroepiandrosterone, androstenedione, testosterone, 5α-DHT, and estradiol. These data demonstrate the existence of an active form of 17β-HSD in the frog telencephalon, which is likely involved in testosterone biosynthesis within the brain.     

Presence of γ-Aminobutyric Acid in Rat Ovary

Abstract: As γ-aminobutyric acid (GABA) was first discovered as the free acid in the mammalian central nervous system, it has been assumed that GABA is generally to be found in significant amounts only in the brain, in spite of reports of its presence in a number of non-neuronal tissues. In this study, GABA was detected amongst the free amino acids in most rat tissues that were examined. The highest concentration outside the brain was in the ovary (0.59 μmol/g fresh tissue). It is concluded that the synthesis of the GABA is intragonadal and probably of metabolic importance.     

REGIONAL LEVELS OF GABA IN THE BRAIN: RAPID SEMIAUTOMATED ASSAY AND PREVENTION OF POSTMORTEM INCREASE BY 3-MERCAPTO-PROPIONIC ACID

Abstract— A simple and rapid semiautomated assay for GABA in central nervous tissue is described. The method is based on a simple manual procedure of isolating GABA from tissue extracts on small CM Sepharose Cl 6B columns, followed by an automated fluorimetric detection (continuous flow system) with o -phthalaldehyde (OPA) and β-mercapto-ethanol (β-ME) at an alkaline pH. GABA is separated from other compounds that fluoresce in our detection system. By using low concentration of OPA and β-ME and allowing only a short reaction time with these reagents, the detection is specific towards GABA. The detection limit of the assay is 1 nmol.
A procedure is described for the prevention of postmortem GABA increase in rat and mouse brain by intravenous injection of 3-mercapto-propionic acid (1.2 nmol/kg) 2min before decapitating the animal. This treatment and microwave irradiation result in similar GABA levels in mouse brain and substantia nigra tissue from rat brain. We found a great conformity in regional GABA levels in the rat and the mouse brain.     

Developmental regulation of the neuronal‐specific isoform of K‐CL cotransporter KCC2 in postnatal rat brains

We examined the expression of the KCC2 isoform of the K‐Cl cotransporter in the developing and adult brain, using an affinity‐purified antibody directed against a unique region of the KCC2 protein. Expression was shown to be limited to neurons at the cell bodies and cell processes in the hippocampus and cerebellum. Expression seemed to be the highest at the end of processes that originated from the CA1 pyramidal cells. Developmental up‐regulation of KCC2 expression was demonstrated in the entire rat brain by Northern and Western blot analyses, and in the hippocampus by immunofluorescence. Level of KCC2 expression was minimal at birth and increased significantly during postnatal development. This pattern of expression was opposite to the one of the Na‐K‐2Cl cotransporter that is highly expressed in immature brain and decreases during development. The up‐regulation of the K‐Cl cotransporter expression is consistent with the developmental down‐regulation of the intracellular Cl⁻ concentration in neurons. The level of intracellular Cl⁻, in turn, determines the excitatory versus inhibitory response of the neurotransmitter γ‐aminobutyric acid in the immature versus mature brain. Finally, KCC2 expression was shown in dorsal root ganglion neurons, demonstrating that expression of the cotransporter is not strictly confined to central nervous system neurons. © 1999 John Wiley & Sons, Inc. J Neurobiol 39: 558–568, 1999     

Liver and muscle fatty acid composition of mature and immature rainbow trout (<Emphasis Type="Italic">Oncorhynchus mykiss</Emphasis>) fed two different diets

Fatty acid composition of liver and muscle tissues of immature and mature Oncorhynchus mykiss fed on two different diets were determined. Fatty acid analyses were carried out by gas chromatography. Palmitic acid (C16:0), oleic acid (C18:1 n-9), linoleic acid (C18:2 n-6) and docosahexaenoic acid (C22:6 n-3) were the major components in both liver and muscle tissues of immature and mature rainbow trout of both sexes. The amounts of C22:6 n-3 were higher in the liver (29.04 ± 0.06 − 27.41 ± 0.17%) and muscle (13.05 ± 0.40 − 11.37 ± 0.21%) of immature fish than in mature fish and depended on the composition of the diet. Results of this study show that fatty acid composition in fish tissues can considerably vary, depending on the age of fish and their diet. Thus more detailed studies are necessary on the influence of diet on immature and mature fish fatty acid composition. The age and diet of fish consumed may also be important for human health.     

P-31 Nuclear Magnetic Resonance Analysis of Brain: The Perchloric Acid Extract Spectrum

Abstract: Perchloric acid (PCA) extracts were prepared from liquid-N₂-frozen guinea pig brains and their organophosphate profiles examined by P-31 nuclear magnetic resonance (NMR) spectroscopy. Thirty-two phosphorus-containing brain metabolites were characterized and quantitated. A distinctive feature of brain tissue metabolism relative to that of other tissues probed by P-31 NMR is its pronounced ribose 5-phosphate content. Comparison of brain metabolite levels following control or sublethal cyanide treatment (4 mg/kg) revealed specific cyanide-induced changes in brain metabolism. Brains from cyanidetreated animals were characterized by a reduced phosphocreatine content and elevated α-glycerolphosphate and inorganic orthophosphate contents relative to control. P-31 NMR spectra of brain PCA extracts at pH 7.2 were also obtained under conditions that approximate those used for in vivo and intact tissue in vitro P-31 spectroscopic analyses. The spectra reveal nine separate resonance bands corresponding to: sugar phosphates, principally ribose 5-phosphate (3.7δ); inorganic orthophosphate (2.2δ); glycerol 3-phosphorylethanolamine (0.3δ); glycerol 3-phosphorylcholine (−0.1δ); phosphocreatine (−3.2δ); adenosine tri-(β-ATP) and di-(β-ADP) phosphate ionized end-groups (−6.2δ); α-ATP, α-ADP, and nicotinamide adenine dinucleotides esterified end-groups (−11.1δ); uridine diphosphohexose, hexose esterified end-groups (−13.0δ); and β-ATP ionized middle group (−21.6δ). Knowledge of the phosphatic molecules that contribute resonances to the brain P-31 NMR spectrum as well as understanding their magnetic resonance properties is essential for the interpretation of in vivo brain spectroscopic data as well as brain extract data, since these same compounds contribute to the intact brain P-31 spectrum.     

STUDIES ON THE TISSUE AND SUBCELLULAR DISTRIBUTION OF β-N-OXALYL-l-α, β-DIAMINOPROPIONIC ACID, THE LATHYRUS SATIVUS NEUROTOXIN

Abstract— β- N -Oxalyl- l -α, β-diaminopropionic acid (ODAP), the Lathyrus sativus neurotoxin can be detected in significant concentrations in the synaptosomal fractions isolated from young rat brain and adult monkey spinal cord, when these animals manifest neurological symptoms after ODAP administration. However, isolated synaptosomes fail to exhibit any transport system for ODAP uptake. ODAP administered in vivo appears to get localized in a population of synaptosomes which exhibit a high affinity uptake system for glutamate.     

REGIONAL DISTRIBUTION OF AMINO ACIDS IN HUMAN BRAIN OBTAINED AT AUTOPSY

Abstract— Contents (μmol/g wet wt.) of 35 free amino acids and related compounds were measured in 12 different regions of each of five human brains. Specimens were obtained at autopsy from patients who died suddenly without previous brain disease. These data may serve for later comparison with contents of amino compounds in similar regions of the brains of patients dying with various neurological or psychiatric disorders.
There were marked and consistent differences in the regional distribution of the following eight compounds: γ-aminobutyric acid, homocarnosine, glutamic acid, aspartic acid, taurine, cystathionine, glycerophosphoethanolamine, and phosphoethanolamine. These differences suggest that some of these compounds may have special physiological roles, including the possible mediation of synaptic transmission.
Human brain contains two previously unreported compounds, the mixed disulphide of cysteine and glutathione and α-(γ-aminobutyryl)-lysine. The latter dipeptide occurs in much higher concentrations in human brain than in the brains of lower mammals.     

A traditional medicinal herb Paeonia suffruticosa and its active constituent 1,2,3,4,6-penta-O-galloyl-β-d-glucopyranose have potent anti-aggregation effects on Alzheimer's amyloid β proteins in vitro and in vivo

The deposition of amyloid β (Aβ) protein is a consistent pathological hallmark of Alzheimer's disease (AD) brains; therefore, inhibition of Aβ fibril formation and destabilization of pre-formed Aβ fibrils is an attractive therapeutic and preventive strategy in the development of disease-modifying drugs for AD. This study demonstrated that Paeonia suffruticosa , a traditional medicinal herb, not only inhibited fibril formation of both Aβ_1–40 and Aβ_1–42 but it also destabilized pre-formed Aβ fibrils in a concentration-dependent manner. Memory function was examined using the passive-avoidance task followed by measurement of Aβ burden in the brains of Tg2576 transgenic mice. The herb improved long-term memory impairment in the transgenic mice and inhibited the accumulation of Aβ in the brain. Three-dimensional HPLC analysis revealed that a water extract of the herb contained several different chemical compounds including 1,2,3,4,6-penta- O -galloyl-β- d -glucopyranose (PGG). No obvious adverse/toxic were found following treatment with PGG. As was observed with Paeonia suffruticosa , PGG alone inhibited Aβ fibril formation and destabilized pre-formed Aβ fibrils in vitro and in vivo . Our results suggest that both Paeonia suffruticosa and its active constituent PGG have strong inhibitory effects on formation of Aβ fibrils in vitro and in vivo . PGG is likely to be a safe and promising lead compound in the development of disease-modifying drugs to prevent and/or cure AD.     

Purification and characterization of the high molecular weight microtubule associated proteins from neonatal rat brain

The changes in the levels of microtubule-associated proteins (MAPs) during advanced embryonic stages, neonatal and adult organisms reflect the importance of these cytoskeletal proteins in relation to the morphogenesis of the central nervous system. MAP-1B is found in prenatal brains and it appears to have the highests levels in neonatal rat brains, being a developmentally-regulated protein. In this research, a fast procedure to isolate MAP-1B, as well as MAP-2 and MAP-3 from neonatal rat brains was designed, based on the differential capacity of poly L-aspartic acid to release MAPs during temperature-dependent cycles of microtubule assembly in the absence of taxol. The high molecular weight MAP-1B was recovered in the warm supernatants after microtubular protein polymerization in the presence of low concentrations of polyaspartic acid. Instead, MAP-2 and a 180 kDa protein with characteristics of MAP-3 remained associated to the polymer after the assembly. Further purification of MAP-1B was attained after phosphocellulose chromatography. Isolation of MAP-2 isoforms together with MAP-3 was achieved on the basis of their selective interactions with calmodulin-agarose affinity columns. In addition, MAP-2 and MAP-3 were also purified on the basis of their capacities to interact with the tubulin peptide -II (422–434) derivatized on an Affigel matrix. However, MAP-1B did not interact with the -II tubulin fragment, but it showed interaction with the Affigel-conjugated -I (431–444) tubulin peptide. The different MAPs componentes were characterized by western blots using specific monoclonal antibodies. A salient feature of neonatal rat brain MAP-3 was its interactions with site-directed antibodies that recognize binding epitopes on the repetitive sequences of tau and MAP-2. However, these site-specific antibodies did not interact with MAP-1B from the neonatal rat brain tissue.Abbreviations PAA poly (L-aspartic acid) - HMW-MAPs high molecular weight microtubule associated proteins     

INFLUX OF GLUTAMIC ACID IN PERIPHERAL NERVE—CHARACTERISTICS OF INFLUX1

Abstract— —The influx of glutamic acid in frog sciatic nerve has been studied by monitoring the disappearance of ¹⁴C labelled compound from the bathing medium. After 5hr of incubation in 10 ⁻⁶m non-labelled l -glutamic acid and 0·01, μc/ml labelled isotope, the intracellular concentration of labelled glutamic acid is about 15 times the concentration in the bathing medium; however, there appears to be a net loss of non-labelled compound with incubation. Uptake of L,-glutamic acid is accompanied by conversion of significant amounts of labelled E-glutamic acid to carbon dioxide and glutamine; small amounts of γ-aminobutyric acid and aspartic acid are also formed. The rate of disappearance of labelled l -glutamic acid decreases with increasing concentration of non-labelled isotope in the bathing medium. Construction of a Lineweaver-Burk plot from initial velocities of influx yields an average V_m of 4·02 × 10⁻⁹ moles/g/min and an average K_m. of 3·23 × 10 ⁻⁵ moles/l. The influx of glutamic acid is highly specific with regard to molecular structure; of the compounds tested, only l -glutamine, l -glutamic acid, GABA, l -lysine, and l -aspartic acid are taken up, and only l -aspartic acid will compete with l -glutamic acid for uptake.     

PROPERTIES OF ACID β-d-GALACTOSIDASE ISOLATED FROM I-CELL DISEASE BRAIN AND SPLEEN

Abstract— Acid 4-methylumbelliferyl β- d -galactosidase activity from autopsied I-cell disease brain and spleen tissues was 28% and 35% respectively of normal activity. Acid β- d -gatactosidase (β- d -galactoside galactohydrolase, EC 3.2.1.23) from two I-cell disease brains demonstrated a 5-fold increase over normal for the proportion of enzyme activity which did not adsorb to Concanavalin A-Sepharose 4B, while acid β- d -galactosidase from two I-cell disease spleens demonstrated a 21–35-fold increase in the proportion of unadsorbed enzyme activity. Normal and I-cell disease acid β- d -galactosidase present in crude brain and spleen supernatant fluids and in preparations partially purified on Concanavalin A-Sepharose 4B had similar apparent K _m values with respect to 4-methylumbelliferyl β- d -galactopyranoside and G_M1-ganglioside. Isoelectric focusing profiles of normal and I-cell disease acid β- d -galactosidase from crude brain and spleen-supernatant fluids and partially purified preparations were similar. Neuraminidase treatment and subsequent isoelectric focusing of the partially purified normal and I-cell disease enzyme preparations from brain and spleen revealed increases in the proportion of I-cell β- d -galactosidases found at neutral pH values, suggesting that the electrophoretic variations observed for the I-cell enzymes may not be attributed solely to changes in sialic acid composition.     

Rapid estrogen regulation of DHEA metabolism in the male and female songbird brain

In the songbird brain, dehydroepiandrosterone (DHEA) is metabolized to the active and aromatizable androgen androstenedione (AE) by 3β-hydroxysteroid dehydrogenase/Δ5-Δ4 isomerase (3β-HSD). Thus, brain 3β-HSD plays a key role in regulating the steroidal milieu of the nervous system. Previous studies have shown that stress rapidly regulates brain 3β-HSD activity in a sex-specific manner. To elucidate endocrine regulation of brain 3β-HSD, we asked whether 17β-estradiol (E₂) regulates DHEA metabolism in adult zebra finch ( Taeniopygia guttata ) and whether there are sex-specific effects. Brain tissue was homogenized and centrifuged to obtain supernatant lacking whole cells and cell nuclei. Supernatant was incubated with [³H]DHEA and radioinert E₂ in vitro . Within only 10 min, E₂ significantly reduced 3β-HSD activity in both male and female brain. Interestingly, the rapid effects of E₂ were more pronounced in females than males. These are the first data to show a rapid effect of estrogens on the songbird brain and suggest that rapid estrogen effects differ between male and female brains.     

Immunohistochemical Localization of G Protein β1, β2, β3, β4, β5, and γ3 Subunits in the Adult Rat Brain

Abstract: The regional distributions of the G protein β subunits (Gβ1–β5) and of the Gγ3 subunit were examined by immunohistochemical methods in the adult rat brain. In general, the Gβ and Gγ3 subunits were widely distributed throughout the brain, with most regions containing several Gβ subunits within their neuronal networks. The olfactory bulb, neocortex, hippocampus, striatum, thalamus, cerebellum, and brainstem exhibited light to intense Gβ immunostaining. Negative immunostaining was observed in cortical layer I for Gβ1 and layer IV for Gβ4. The hippocampal dentate granular and CA1–CA3 pyramidal cells displayed little or no positive immunostaining for Gβ2 or Gβ4. No anti-Gβ4 immunostaining was observed in the pars compacta of the substantia nigra or in the cerebellar granule cell layer and Purkinje cells. Immunoreactivity for Gβ1 was absent from the cerebellar molecular layer, and Gβ2 was not detected in the Purkinje cells. No positive Gγ3 immunoreactivity was observed in the lateral habenula, lateral septal nucleus, or Purkinje cells. Double-fluorescence immunostaining with anti-Gγ3 antibody and individual anti-Gβ1–β5 antibodies displayed regional selectivity with Gβ1 (cortical layers V–VI) and Gβ2 (cortical layer I). In conclusion, despite the widespread overlapping distributions of Gβ1–β5 with Gγ3, specific dimeric associations in situ were observed within discrete brain regions.     

Abscisic Acid: correlations with abscission and with development in the cotton fruit

Abscisic acid was measured in developing cotton fruit (Gossypium hirsutum) by means of gas-liquid chromatography. High levels of abscisic acid occurred in correlation with abortion and abscission of young fruit, with low germination of immature seed, and with senescence and dehiscence of mature fruit. Declining or low levels of abscisic acid occurred in correlation with the period of most rapid fruit growth and with high germination of immature and mature seed. Young fruit of cultivar Acala 4-42 contained about twice as much abscisic acid as young fruit of cultivar Acala SJ-1, and this difference is correlated with a higher rate of young fruit abscission in Acala 4-42. Young fruit abscising late in the fruiting season contained about twice as much abscisic acid as young fruit abscising early in the fruiting season.     

Vitamins A, C, and E and β-Carotene Content in Seeds of Seven Species of Vicia L.

Abstract: To determine the vitamins A, C, and E and β-carotene content of Vicia species that can be used in animal feed, a high performance liquid chromatography (HPLC) method was used to investigate the vitamin and β-carotene content in mature and immature seeds of seven Vicia species ( Vicia anatolica Turrill., V. ervilia (L.) Willd., V. michauxii Sprengel, V. mollis Boiss. et Hausskn. ex Boiss., V. noeana Reuter ex Boiss., V. peregrina L., and V. sericocarpa Fenzl.), which are useful plants in animal feed in the eastern Anatolia region in Turkey. The vitamin content was found to differ between mature and immature seeds. The levels of vitamins A, C, and E and β-carotene were higher in mature seeds than in immature seeds ( P < 0.01).
(Managing editor: Wei WANG)