l-serine and GABA uptake by synaptosomes during postnatal development of rat

Postnatal development changes in mechanisms of synaptosomal amino acid transport have been studied in rat cerebral cortex. Specific uptake of radiolabeled l-serine was examined and compared with that of radiolabeled GABA using synaptosomes-enriched fractions freshly prepared from cerebral cortex at different postnatal days from the birth to young adulthood. The preparations were incubated with 10 nM of [³H]l-serine and 10 nM of [³H]-GABA in either the presence or absence of NaCl, KCl or choline chloride, at 2 and 30 °C, for different periods up to 30 min. The uptake of [³H]l-serine was temperature dependent in synaptosomal fractions prepared from cerebral cortex of rats in postnatal days 5, 7, 13 and 21, but stronger dependence was observed in adult brain, irrespective of the presence of Na⁺, K⁺ or choline ions. At all postnatal ages studied, [³H]-GABA uptake showed a high activity in the presence of Na⁺ ions and at 30 °C. The values of K_m were 90–489 μM in l-serine uptake. However, in the uptake of GABA the values of K_m were 80–150 μM. The highest values of V_max were obtained at 5 and 21 postnatal days for both transport systems. These results indicate that the uptake of l-serine and GABA are regulated differentially during postnatal development.     

Expression of <Emphasis Type="SmallCaps">l</Emphasis>-Serine Biosynthetic Enzyme 3-Phosphoglycerate Dehydrogenase (Phgdh) and Neutral Amino Acid Transporter ASCT1 Following an Excitotoxic Lesion in the Mouse Hippocampus

The nonessential amino acid l-serine functions as a glia-derived trophic factor and strongly promotes the survival and differentiation of cultured neurons. The l-serine biosynthetic enzyme 3-phosphoglycerate dehydrogenase (Phgdh) and the small neutral amino acid transporter ASCT1 are preferentially expressed in specific glial cells in the brain. However, their roles in pathological progression remain unclear. We examined the expression of Phgdh and ASCT1 in kainic acid (KA)-induced neurodegeneration of the mouse hippocampus using immunohistochemistry and Western blots. Our quantitative analysis revealed that Phgdh and ASCT1 were constitutively expressed in the normal brain and transiently upregulated by KA-treatment. At the cellular level, Phgdh was expressed in astrocytes in control and in KA-treated mice while ASCT1 that was expressed primarily in the neurons of the normal brain appeared also in activated astrocytes in KA treated mouse brain. The preferential glial expression of ASCT1 was consistent with that of Phgdh. These results demonstrate injury-induced changes in Phgdh and ASCT1 expression. It is hypothesized that the secretion of l-serine is regulated by astrocytes in response to toxic molecules such as glutamate and free radicals that promote neurodegeneration, and may correspond to the level of l-serine needed for neuronal survival and glial activation during brain insults. G. S. Jeon and D. H. Choi contributed equally to this work.     

-Amino acid contents of mitochondria and some purple bacteria

The endosymbiont most likely to have given rise to mitochondria is an aerobic bacterium belonging to the α subdivision of the so-called purple bacteria such as Rickettsia, Bradythizobium and Agrobacterium [1 and 2]. Contents of the -enantiomers of serine, alanine, proline, glutamate and aspartate in rat liver whole mitochondria, mitochondrial outer membranes, inner membranes and matrix, soluble proteins and free amino acids were detected. These values for -amino acid content were compared with those in soluble proteins and free amino acids from the purple bacteria Paracoccus denitrificans, Pseudomonas aeruginosa and Escherichia coli, members, respectively of the α, β, and γ subdivisions, to find any similarity between mitochondria and these purple bacteria. A similarity was observed in protein -amino acid contents which were low (<1.5%, D-type/D-type+L-type) both in the membrane and soluble protein fractions from mitochondria and in soluble protein from bacteria. Oddly, substantial amounts of free -serine and free -aspartate (around 2%) were found for the first time in mitochondria. The contents of -serine and -aspartate were higher than those of -alanine, -proline and -glutamate. In purple bacteria, the concentration of -serine (<2%) was the lowest of the five amino acids examined, and those of -alanine (27–32%) and -glutamate (7–26%) were high. Therefore, no similarity was shown in the free -amino acid content between mitochondria and any of the three purple bacteria.     

Determination of l-methionine-dl-sulphoxide in tissue extracts

The amino acid fraction from rat liver, heart and skeletal muscle was prepared by the separation of sulphosalicylic acid extract on Dowex 50 H⁺ form. The presence of l-methionine-dl-sulphoxide in these extracts was identified and compared by three independent chromatographic methiods: ion-exchange, Pico-Tag and reversed-phase high-performance liquid chromatography after precolumn derivatisation with diethylethoxymethylenemalonate. Quantitative data indicate that l-methionine-dl-sulphoxide is present in the intracellular pool at the levels of free methionine.     

Endogenous d-Serine in Rat Brain: N-Methyl-d-Aspartate Receptor-Related Distribution and Aging

Abstract: Recently, a substantial amount of free d -serine has been demonstrated in rat brain, although it has long been presumed that d -amino acids are uncommon in mammals. The anatomical distribution and age-related changes in endogenous d -serine have been examined here to obtain insight into its physiological functions. Free d -serine exclusively occurs in brains, with a persistent high content from birth to at least 86 postnatal weeks. The patterns of the regional variations and the postnatal changes in brain d -serine are closely correlated with those of the N -methyl- d -aspartate (NMDA)-type excitatory amino acid receptor. Because d -serine potentiates NMDA receptor-mediated transmission by selective stimulation of the strychnine-insensitive glycine site of the NMDA receptor, it is proposed that d -serine is a novel candidate as an intrinsic ligand for the glycine site in mammalian brain.     

Gene cloning, purification, and characterization of α-methylserine aldolase from Bosea sp. AJ110407 and its applicability for the enzymatic synthesis of α-methyl-l-serine and α-ethyl-l-serine

The gene encoding α-methylserine aldolase was isolated from Bosea sp. AJ110407. Sequence analysis revealed that the predicted amino acid sequence encoded by the 1320-bp open reading frame was 65.0% similar to the corresponding sequence of the enzyme isolated from Ralstonia sp. AJ110405. The gene was expressed in Escherichia coli, and the recombinant enzyme was purified. Gel filtration revealed the molecular mass of the purified enzyme to be approximately 78 kDa, suggesting that the enzyme is a homodimer. The enzyme exhibited a specific peak at 429 nm in the spectrum and contained 1 mol pyridoxal 5′-phosphate per mole of the subunit. The V_max value was 1.40 μmol min⁻¹ mg⁻¹, and the K_m value was 1.5 mM for the reaction wherein formaldehyde was released from α-methyl-l-serine. This enzyme could also catalyze the reverse reaction, i.e., the synthesis of α-methyl-l-serine from l-alanine and formaldehyde. This activity was inhibited in the excess of formaldehyde; however, α-methyl-l-serine was efficiently produced from l-alanine in the presence of formaldehyde. This method was also applicable for producing α-ethyl-l-serine from l-2-aminobutyric acid.     

Synthesis of poly-O-tert-butyl-L-serine and poly-L-serine

The synthesis of polymers containing O-tert-butyl-L -serine, O-tert-butyl-DL -serine, L -serine, and DL -serine is reported. The N-benzyloxycarbonyl-(L or DL )-serine benzyl ester was used to synthesize the corresponding N-benzyloxycarbonyl-O-tert-butyl-(L or DL )-serine benzyl ester. Catalytic hydrogenation of this material gave O-tert-butyl-(L or DL )-serine. The reaction of O-tert-butyl-(L or DL )-serine with phosgene produced the corresponding N-carboxyanhydrides. The kinetics of polymerization of N-carboxyanhydrides were investigated to facilitate, the preparation of block copolymers. The O-tert-butyl blocking group was removed from polymers by treatment with HCl and HBr in benzene. Both high molecular weight (water-insoluble) and low molecular weight (water-soluble) homopolymers have been prepared, as well as water-soluble block copolymers of the type (DL -serine)_x (L -serine)_y, (DL -serine)_z.     

Spectroscopic,theoretical and structural characterization of hydrogensquarates of <Emphasis Type="SmallCaps">l</Emphasis>-threonyl-<Emphasis Type="SmallCaps">l</Emphasis>-serine and <Emphasis Type="SmallCaps">l</Emphasis>-serine

Summary. Hydrogensquarates of dipeptide l-threonyl-l-serine (H-Thr-Ser-OH) and l-serine (HSq × Ser) have been synthesized, isolated and spectroscopic characterized by solid-state linear-polarized IR-spectroscopy, ¹H- and ¹³C-NMR, ESI-MS and HPLC with tandem masspectrometry (MS-MS) methods. The structures of the salts and neutral dipeptide have been predicted theoretically by ab initio calculations. In the case of H-Thr-Ser-OH the theoretical data are supported by IR-LD ones. The hydrogensquarates consist in positive charged dipeptide or amino acid moiety and negative hydrogensquarate anion (HSq) stabilizing by strong intermolecular hydrogen bonds. The data about the l-serine hydrogensquarate are compared with known crystallographic data thus indicating a good correlation between the theoretical predicted structures and experimentally obtained by single crystal X-ray diffraction.     

Development of a protocol for the automated analysis of amino acids in brain tissue samples and microdialysates

An automated precolumn derivatisation method has been developed for the measurement of fourteen amino acids in brain tissue and microdialysate samples. The method involves labelling amino acids with naphthalene-2,3-dicarboxaldehyde (NDA) in the presence of cyanide (CN⁻). The resulting highly stable N-substituted 1-cyanobenz[f]isoindole (CBI) derivatives were separated using a binary gradient elution profile and detected fluorometrically. The order of elution of the derivatised amino acids was confirmed by using liquid chromatography with fluorescence and mass spectrometric detection in tandem. Linear calibration plots were obtained for all amino acids in the range studied (0.2–12.5 μM). The limit of detection for CBI derivatives of amino acids was in the range 5–20 fmol (S/N=2) using a 5 μl injection volume. The method has been used for the measurement of amino acids in microdialysates from rat brain and tissue homogenates from different regions of mouse brain.     

Metabolism of amino acids during hyposmotic adaptation in the whiteleg shrimp, Litopenaeus vannamei

The penaeid prawn, Litopenaeus vannamei, was employed to investigate intracellular isosmotic regulation in situations where invertebrates encounter hyposmosis. Hemolymph osmolality was first analyzed to confirm osmoregulatory conditions in the experimental animals, followed by analysis of amino acids in muscle and hemolymph using high-performance liquid chromatography. Total muscle amino acid levels decreased when hemolymph osmolality was extremely low, whereas glycine and l-serine levels increased in the hemolymph. These results suggest that tissue amino acids were released into the hemolymph to lower the osmolality of the tissues for purposes of low-salinity adaptation. Next, oxygen consumption and ammonia excretion rates were examined, and the O/N ratio was determined. Oxygen consumption levels and ammonia excretion rates increased, and the O/N ratio decreased when the animals were exposed to low salinity. These results suggest that amino acids were abundantly consumed as an energy source when animals were exposed to low salinity. To confirm the consumption of particular amino acids, the specific activity of l-serine ammonia lyase was also examined. Specific activity was highest when l-serine levels in the hemolymph were highest. Thus, it appears that l-serine levels increased under hyposmotic conditions due to the consumption of l-serine as an energy source. It was concluded that particular amino acids as osmolytes are likely metabolized as energy sources and consumed for purposes of hyposmotic adaptation.     

Occurrence of two l-threonine (l-serine) dehydratases in the thermophile Chloroflexus aurantiacus

The thermophilic phototrophic prokaryote, Chloroflexus aurantiacus was shown to contain high constitutive l-threonine (l-serine) deaminating activity. Separation of cellular proteins by DE 52-cellulose chromatography and by polyacrylamide gel electrophoresis with subsequent activity staining of the gels yielded two bands, one representing an isoleucine-sensitive, the other one an isoleucine-insensitive form of l-threonine dehydratase. Both enzymes had a molecular weight of 120,000 but were distinguished by their different affinities to the two substrates, l-threonine and l-serine.Abbreviations SDH l-serine dehydratase - TDH l-threonine dehydratase     

Evaluation of the E. coli d-serine ammonia lyase gene (Ec. dsdA) for use as a selectable marker in maize transformation

In this study, the d-serine ammonia lyase (dsdA) gene from Escherichia coli was evaluated as a selectable marker for maize transformation. Plants are incapable of utilizing the D-form of most amino acids, and d-serine has recently been demonstrated to be phytoinhibitory to plant growth. d-Serine ammonia lyase detoxifies d-serine via a substrate-specific reaction to pyruvate, ammonia, and water. d-Serine inhibits germination of isolated maize immature embryos and growth of embryogenic callus from wild-type plants at concentrations about approx. 2?C15 mM. Transgenic plants were recovered in the presence of d-serine in tissue culture media with dsdA as the selection marker at efficiencies comparable to using a mutated acetohydroxy acid synthase selection marker gene and selection in the presence of imidazolinone herbicides. Immature embryos infected with an Agrobacterium strain containing an acetohydroxy acid synthase gene construct without dsdA did not yield any transgenic events on the selection medium with 10 mM d-serine, indicating that d-serine provided selection tight enough to prevent escapes. Molecular analysis confirmed the integration of the dsdA gene into the genome of the transgenic plants. No adverse phenotypes were observed in the greenhouse, and expression of the dsdA marker had no affect on agronomic characteristics or grain yield in multi-location field trials. Seed compositional analysis demonstrated no significant differences in the contents of seed protein, starch, fatty acids, fiber, phytic acid, and free amino acids between transgenic and non-transgenic control plants. These data indicate that the dsdA gene is properly expressed in maize and the d-serine ammonia lyase (DSDA) enzyme functions appropriately to metabolize d-serine during in vitro selection. Preliminary safety assessments indicated that no adverse affects would be expected if humans were exposed to the DSDA protein in the diet from an allergenicity or toxicity perspective. The dsdA gene in combination with phytoinhibitory levels of d-serine represents a new and effective selectable marker system for maize transformation.     

Cell Selective Conditional Null Mutations of Serine Racemase Demonstrate a Predominate Localization in Cortical Glutamatergic Neurons

d-Serine, which is synthesized by the enzyme serine racemase (SR), is a co-agonist at the N-methyl-d-aspartate receptor (NMDAR). Crucial to an understanding of the signaling functions of d-serine is defining the sites responsible for its synthesis and release. In order to quantify the contributions of astrocytes and neurons to SR and d-serine localization, we used recombinant DNA techniques to effect cell type selective suppression of SR expression in astrocytes (aSRCKO) and in forebrain glutamatergic neurons (nSRCKO). The majority of SR is expressed in neurons: SR expression was reduced by ~65% in nSRCKO cerebral cortex and hippocampus, but only ~15% in aSRCKO as quantified by western blots. In contrast, nSRCKO is associated with only modest decreases in d-serine levels as quantified by HPLC, whereas d-serine levels were unaffected in aSRCKO mice. Liver expression of SR was increased by 35% in the nSRCKO, suggesting a role for peripheral SR in the maintenance of brain d-serine. Electrophysiologic studies of long-term potentiation (LTP) at the Schaffer collateral–CA1 pyramidal neuron synapse revealed no alterations in the aSRCKO mice versus wild-type. LTP induced by a single tetanic stimulus was reduced by nearly 70% in the nSRCKO mice. Furthermore, the mini-excitatory post-synaptic currents mediated by NMDA receptors but not by AMPA receptors were significantly reduced in nSRCKO mice. Our findings indicate that in forebrain, where d-serine appears to be the endogenous co-agonist at NMDA receptors, SR is predominantly expressed in glutamatergic neurons, and co-release of glutamate and d-serine is required for optimal activation of post-synaptic NMDA receptors.     

Occurrence of a unique amino acid racemase in a basidiomycetous mushroom, Lentinus edodes

Free -alanine was detected in a cell extract of the fruit-body of an edible basidiomycetous mushroom, Lentinus edodes (Shiitake), by means of reverse-phase high performance liquid chromatography. We also found an amino acid racemase activity in L. edodes fruit-body, and purified the enzyme. The enzyme has a molecular weight of approximately 86,000, and consists of two subunits of identical molecular weight (44,000). The optimal pH of the enzyme activity is around pH 9.5 for both -to- and -to- alanine racemization. The enzyme requires pyridoxal 5′-phosphate as a cofactor. K_m and V_max values for -alanine were 37.3 mM and 520 nmol/min/mg, respectively; for -alanine, they were 9.21 mM and 141 nmol/min/mg, respectively. The equilibrium constant was calculated to be 1.10, which is consistent with the theoretical value for the racemase reaction. The ability of the enzyme to catalyze the racemization of various -amino acids was investigated. The enzyme catalyzes the racemization of -serine (relative reaction rate, 144% of rate for -alanine), -alanine (100%), -homoserine (17.1%), -2-aminobutyrate (5.6%), -glutamate (4.5%), and -asparagine (3.2%). To the best of our knowledge, this is the first report of an amino acid racemase produced by a basidiomycetous mushroom.     

l-Serine Deficiency Elicits Intracellular Accumulation of Cytotoxic Deoxysphingolipids and Lipid Body Formation

l-Serine is required to synthesize membrane lipids such as phosphatidylserine and sphingolipids. Nevertheless, it remains largely unknown how a diminished capacity to synthesize l-serine affects lipid homeostasis in cells and tissues. Here, we show that deprivation of external l-serine leads to the generation of 1-deoxysphingolipids (doxSLs), including 1-deoxysphinganine, in mouse embryonic fibroblasts (KO-MEFs) lacking d-3-phosphoglycerate dehydrogenase (Phgdh), which catalyzes the first step in the de novo synthesis of l-serine. A novel mass spectrometry-based lipidomic approach demonstrated that 1-deoxydihydroceramide was the most abundant species of doxSLs accumulated in l-serine-deprived KO-MEFs. Among normal sphingolipid species in KO-MEFs, levels of sphinganine, dihydroceramide, ceramide, and hexosylceramide were significantly reduced after deprivation of external l-serine, whereas those of sphingomyelin, sphingosine, and sphingosine 1-phosphate were retained. The synthesis of doxSLs was suppressed by supplementing the culture medium with l-serine but was potentiated by increasing the ratio of l-alanine to l-serine in the medium. Unlike with l-serine, depriving cells of external l-leucine did not promote the occurrence of doxSLs. Consistent with results obtained from KO-MEFs, brain-specific deletion of Phgdh in mice also resulted in accumulation of doxSLs in the brain. Furthermore, l-serine-deprived KO-MEFs exhibited increased formation of cytosolic lipid bodies containing doxSLs and other sphingolipids. These in vitro and in vivo studies indicate that doxSLs are generated in the presence of a high ratio of l-alanine to l-serine in cells and tissues lacking Phgdh, and de novo synthesis of l-serine is necessary to maintain normal sphingolipid homeostasis when the external supply of this amino acid is limited.     

The effects of some amino acids on growth and lipid production in Inonotus obliquus grown in vitro

The effect of the distribution of free and esterified fatty acids, including triterpenes and sterols, on the mycelial growth of the basidiomycete Inonotus obliquus (Pers. ex Fr.) Pilat in malt extract and solid supplemented mineral media was investigated. The amino acids DL-alanine. DL-aspartic acid, L-glutamic acid, L-leucine, L-methionine, and L-serine were added to the cultures at nitrogen concentrations of 0.1, 0.5 and 0.9 g/l, respectively. Differences in the average mycelial growth were distinct at concentrations of 0.5 g/l and 0.9 g/l. L-Methionine had the highest inhibitory effect on growth. At all concentrations, the amino acids reduced the production of lanosterol. The other identified triterpenes were inotodiol, 3β,hydroxy-lanosta-8,24-dien-21-al, 3β,21-dihydroxy-lanosta-8,24-diene, trametenolic acid, and ergosterol peroxide. The main fatty acids were either C 16:0 or C 18:2 both free or in glycerides.     

Isolation of L8 and L8S8 forms of ribulose bisphosphate carboxylase/oxygenase from Chromatium vinosum

The enzyme ribulose bisphosphate carboxylase/oxygenase has been purified from Chromatium vinosum. When an extract is subjected to centrifugation at 35,000xg in the presence of polyethylene glycol (PEG)-6000 and the supernatant is treated with 50 mM Mg²⁺ and the precipitate is then fractionated by vertical centrifugation into a reoriented sucrose gradient followed by chromatography on diethylaminoethyl (DEAE)-Sephadex A50, the resultant enzyme contains large (L) and small (S) subunits. Alternatively, centrifugation of extracts at 175,000xg in the presence of PEG-6000 followed by fractionation with Mg²⁺, density gradient centrifugation, and chromatography on DEAE-Sephadex A50 yields an enzyme free of small subunits. The two forms have comparable carboxylase and oxygenase activities and have compositions and molecular weights corresponding to L₈ and L₈S₈ enzymes. The amino acid compositions of L and S subunits are reported. The L₈S₈ enzyme from spinach cannot be similarly dissociated by centrifugation at 175,000xg in the presence of PEG-6000.Abbreviations DEAE diethylaminoethyl - EDTA ethylenediamine-tetraacetate - MOPS 3-(N-morpholino)propanesulfonic acid - PEG polyethylene glycol - RuBisCO d-ribulose 1,5-bisphosphate caboxylase/oxygenase - RnBP d-ribulose 1,5-bisphosphate - SDS sodium dodecyl sulfate - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis Dedicated to Professor G. Drews on occasion of his 60th birthday     

DEVELOPMENTAL CHANGES IN Na+, K+ AND ATP AND IN THE LEVELS AND TRANSPORT OF AMINO ACIDS IN INCUBATED SLICES OF RAT BRAIN

Abstract—

• 1 Upon incubation, slices of brain tissue took up fluid; the degree of swelling increased with increasing age. No sweiling occurred in slices from foetal brain. Since this swelling was associated with increases in the inulin space, the percentage of inulin space in slices at the end of incubation increased during brain development.
• 2 Most of the capacity for ion transport seemed to be absent from foetal brain. In vivo and in slices, Na⁺ was very high and K⁺ was very low in comparison to levels at other ages. There was a rapid change around birth, but no significant change at later ages. Upon incubation, Na⁺ levels increased in other slices, but not in slices of foetal brain.
• 3 Upon incubation of the slices, ATP levels were restored to levels close to those in the living brain; there were no significant alterations in available energy during development to explain changes in amino acid transport.
• 4 The composition of the free pool of cerebral amino acids in vivo changed with development, with some compounds (glutamic acid and related compounds) increasing, others (mostly‘essential’amino acids) decreasing, with age. These changes were not linear with time, and the level of a compound might exhibit several peaks during development.
• 5 The uptake (influx) of taurine, glutamate and glycine into brain slices increased rapidly during the foetal and early neonatal periods, reached a maximum between 2 and 3 weeks of postnatal age and then declined to adult levels. The levels of steady-state uptake with glycine also exhibited a maximal peak at 2-3 weeks of postnatal age. Steady-state uptake of taurine and glutamate reached adult levels by about 3 weeks of age.
• 6 The pattern of inhibition of amino acid transport by two specific amino acid analogues changed during development for some amino acids (GABA, glycine and glutamate), indicating an alteration in substrate specificity.
• 7 The results demonstrate complex changes in cerebral amino acid transport during development, with several maxima or minima and with changes in specificity for at least some compounds.

     

Brain GABA and glutamate levels in workers of two ant species (Hymenoptera: Formicidae): Interspecific differences and effects of queen presence/absence

Presence of amino acid neurotransmitters gamma‐aminobutyric acid (GABA) and glutamate (Glu) in ant brains was reported in very few studies. To learn more about factors influencing GABA and Glu levels in ant brains, we applied high‐performance liquid chromatography to measure levels of these compounds in single brains of workers of 2 ant species, Myrmica ruginodis (subfamily Myrmicinae) and Formica polyctena (subfamily Formicinae) taken from queenright/queenless colony fragments and tested in dyadic aggression tests consisting of an encounter with a nestmate, an alien conspecific or a small cricket. Brain glutamate levels were higher than those of GABA in both tested species. Brain GABA levels (in μmol/brain) and GABA : Glu ratio were higher in M. ruginodis (a submissive species) than in F. polyctena (a dominant, aggressive species) in spite of smaller brain weight of M. ruginodis. Brain glutamate levels (in μmol/brain) did not differ between the tested species, which implies that glutamate concentration (in μmol/mg of brain tissue) was higher in M. ruginodis. Queen absence was associated with increased worker brain GABA levels in F. polyctena, but not in M. ruginodis. No significant effects of opponent type were discovered. As GABA agonists enhance friendly social behavior in rodents, we hypothesize that elevated brain GABA levels of orphaned workers of F. polyctena facilitate the adoption of a new queen. This is the first report providing information on GABA and glutamate levels in single ant brains and documenting the effects of queen presence/absence on brain levels of amino acid neurotransmitters in workers of social Hymenoptera.     

Autophosphorylation-dependent protein kinase predominantly phosphorylates Ser115, thein vivo site in brain myelin basic protein

In a previous report [Yanget al., (1987a),J. Biol Chem. 262, 7034–7040], a cyclic-AMP- and calcium-independent brain kinase which requires autophosphorylation for activity was identified as a very potent myelin basic protein (MBP) kinase. In this report, the phosphorylation sites of MBP by this autophosphorylation-dependent protein kinase (autokinase) are further determined by two-dimensional electrophoresis/thin-layer chromatography, phosphoamino acid analysis, high-performance liquid chromatography, tryptic peptide mapping, sequential manual Edman degradation, and direct peptide sequencing. Autokinase phosphorylates MBP on both threonine and serine residues. Three major tryptic phosphopeptide peaks were resolved by C₁₈-reversed phase highper-formance liquid chromatography. Sequential manual Edman degradation together with direct sequence analysis revealed that FS(p)WGAEGQKPGFGYGGR is the phosphorylation site sequence (molar ratio 1.0) for the first major phosphopeptide peak. When mapping with bovine brain MBP sequence, we finally demonstrate Ser¹¹⁵, one of thein vivo phosphorylation sites in MBP, as the major site phosphorylated by autokinase, implicating a physiologically relevant role of autokinase in the regulation of brain myelin function. By using the same approach, we also identified HRDT(p)GILDSLGR (molar ratio 0.9) and TT(p)HYGSLPQK (molar ratio 0.8) as the major phosphorylation site sequences in³²P-MBP phosphorylated by autokinase, further indicating that -Arg-XSer/Thr-(neutral amino acid)₃-(amino acid-containing hydroxyl group such as Ser/Glu/Asp)-(neutral amino acid)₂-may represent a unique consensus sequence motif specifically recognized by this autophosphorylation-dependent multisubstrate/ multifunctional protein kinase in the brain.