FOLATE LEVELS IN DEVELOPING MOUSE BRAIN1

Abstract— The folate coenzymes of mouse brain underwent quantitative and qualitative changes during the first few weeks after birth. The total folate coenzymes per unit wet weight declined by approximately 60 per cent. In the newborn brains a relatively small proportion of the total folates were poly-γ-glutamyl derivatives, but the percentage of the total folates in these forms increased as the brain matured.     

A central role for gamma-glutamyl hydrolases in plant folate homeostasis

Most cellular folates carry a short poly-γ-glutamate tail, and this tail is believed to affect their efficacy and stability. The tail can be removed by γ-glutamyl hydrolase (GGH; EC 3.4.19.9), a vacuolar enzyme whose role in folate homeostasis remains unclear. In order to probe the function of GGH, we modulated its level of expression and subcellular location in Arabidopsis plants and tomato fruit. Three-fold overexpression of GGH in vacuoles caused extensive deglutamylation of folate polyglutamates and lowered the total folate content by approximately 40% in Arabidopsis and tomato. No such effects were seen when GGH was overexpressed to a similar extent in the cytosol. Ablation of either of the major Arabidopsis GGH genes (AtGGH1 and AtGGH2) alone did not significantly affect folate status. However, a combination of ablation of one gene plus RNA interference (RNAi)-mediated suppression of the other (which lowered total GGH activity by 99%) increased total folate content by 34%. The excess folate accumulated as polyglutamate derivatives in the vacuole. Taken together, these results suggest a model in which: (i) folates continuously enter the vacuole as polyglutamates, accumulate there, are hydrolyzed by GGH, and exit as monoglutamates; and (ii) GGH consequently has an important influence on polyglutamyl tail length and hence on folate stability and cellular folate content.     

Synthesis of folate derivatives in aerated storage tissue disks

Microbiological assay of extracts prepared from carrot, potato, turnip and beet storage tissue disks revealed that folate derivatives were synthesized during a 48 hr aeration period in sterile distilled water. The composition of the folate pool in carrot was examined by DEAE—cellulose column chromatography, γ-glutamylcarboxypeptidase treatment and differential assay of individual derivatives using Lactobacillus casei and Streptococcus faecalis. The principal folates were polyglutamates of formyl and methyl tetrahydrofolate. Smaller quantities of the corresponding mono- and di-glutamates were also detected. The latter derivatives occurred in pools having a high degree of metabolic turnover. The specific activities of three enzymes catalyzing production of these derivatives from tetrahydrofolate increased during the first 12 hr of aeration. Amino acid analyses revealed that folate synthesis in carrot disks was accompanied by depletion of free serine and by net synthesis of free and protein methionine.     

Enzymatic synthesis and function of folylpolyglutamates

Summary Derivatives of folic acid occur in nature predominantly as poly (-glutamyl) derivatives containing 2–8 glutamate residues. The data regarding the function of these derivatives, and their biosynthesis by eucaryotic and procaryotic folylpolyglutamate synthetases, is reviewed.The most universal functions of folylpolyglutamates appear to be (a) as the actual cofactors in vivo for folate dependent enzymes, (b) as inhibitors of folate dependent enzymes for which they are not substrates, and (c) to increase retention of folates after they are transported into cells as monoglutamates. Folylpolyglutamates also have numerous specialized functions in specific organisms, e.g. as structural components of some coliphage, and as allosteric regulators in Neurospora crassa.A single enzyme appears responsible for synthesis of all polyglutamate derivatives, regardless of length. With the recent introduction of sensitive assays this folylpolyglutamate synthetase has begun to be characterized. Although procaryotic and eucaryotic synthetases have many dissimilar properties, both types catalyze the ATP-dependent addition of L-glutamate to the -carboxyl of the glutamate present in the folate. Both types also require a monovalent cation and a relatively high pH. The most significant differences between the two types are in their folate substrate specificity and the product lengths derived from various folates.The mechanism of the bacterial enzyme has been studied and an acyl phosphate intermediate is indicated.     

Determination of tissue folate composition by affinity chromatography followed by high-pressure ion pair liquid chromatography

A recent report from this laboratory described the use of affinity chromatography for the isolation of pure folates from tissue extracts (J. Selhub, B. Darcy-Vrillon, and D. Fell (1988) Anal. Biochem. 168, 247-251). The present study was undertaken to develop chromatographic procedures for quantitative analysis of the individual folates in the affinity-purified mixture. Methods were devised whereby mixtures containing pteroylglutamates (PteGlu1-7) were batch reduced to the dihydro, H2PteGlu1-7, and tetrahydro, H4Pte-Glu1-7, forms. The 5-methylH4PteGlu1-7 and the 10-formylH4PteGlu1-7 series were prepared from H4Pte-Glu1-7. These compounds were used to calibrate a liquid chromatographic system for the resolution of folate mixtures. This system included reverse-phase ion pair chromatography and a diode array detector. A mixture containing oxidized and reduced PteGlu1-7, a total of 35 derivatives, was separated into seven clusters arranged in an order of increasing number of glutamate residues. Each cluster was represented by two or more peaks which were due to folates that differed in the pteridine ring structure but had the same number of glutamate residues. In clusters containing mono and diglutamyl derivatives the 10-formyltetrahydro-, the tetrahydro-, and the dihydrofolate forms appeared as separate peaks while those representing folic acid and 5-methyl-tetrahydrofolate derivatives eluted in coinciding peaks. This hierarchy was maintained in the following clusters except for increasing tendency of the former three forms of folates to elute in the same peak. The number of glutamate residues of any eluting folate can be determined on the basis of retention time in relation to those of the clusters. The pteridine ring structure of that same folate can be determined on the basis of its elution position within that cluster and spectral characteristics determined by the diode array detection system. If that position is common for more than one derivative then identification is based on differential spectral properties. Using uv absorption signals at 280 nm to determine indiscriminate folate activity, absorption signals at 350 nm are used to identify folic acid and dihydrofolate derivatives and signals at 258 nm are used to identify 10-formyltetrahydrofolate derivatives. These principles were incorporated into mathematic expressions which were used for quantitative resolution of simulated mixtures containing oxidized and reduced PteGlu5 and for the analysis of folate composition in rat liver, human milk, and cows milk.     

Identification of glutamine chain lengths of endogenous Folypoly-γ-glytamates in rat tissues

A simplified procedure for the determination of the glutamate chain lengths of endogenous tissue folate is described.Natural pteroylpoly-γ-glutamates in tissue extracts, irrespective of their one-carbon moiety, were converted by a reductive cleavage procedure to a homologous series of p-aminobenzoylpoly-γ-glutamates, differing only in glutamate chain length. Desalting and concentration of the extracts were achieved by absorbing the derivatives on active charcoal followed by their elution with ethanol: ammonia. Aminobenzoylpolyglutamates were separated by DEAE- cellulose chromatography and quantitated by a colorimetric procedure for primary aromatic amines.The major endogenous folates in rat liver and kidney were pteroylpentaglutamate derivatives with smaller amounts of pteroyltetra- and hexaglutamate.     

Presence of di- and polyamines covalently bound to protein in rat liver

Acid hydrolysis of trichloroacetic acid precipitate from rat tissue (liver, kidney and testis) homogenate released significant amounts of acid-insoluble putrescine, spermidine and spermine. Following incubation of liver homogenate with [1,4-¹⁴C]putrescine, 1.4% of total radioactivity and 1.0% of labelled diamine were recovered in the acid-insoluble fraction. Exhaustive digestion of acid-precipitable material with proteinases (Pronase, aminopeptidase M, carboxipeptidase A, B and Y) revealed the presence of di- and polyamines and of N¹-(γ-glutamyl)spermidine, N¹-(γ-glutamyl)sperminine and N¹, N¹²-bis(γ-glutamyl)spermine. These derivatives were identified both by chromatographic analysis and by enzymatic digestion with purified γ-glutamylamine cyclotransferase. The finding of di- and polyamine γ-glutamyl derivatives in the proteinase-digested acid-insoluble fraction of homogenate may be considered as a proof of the in vivo transglutaminase-catalyzed binding of polyamines to proteins. This evidence suggests that di- and polyamines might have an important role in mammalian tissues through covalent binding to proteins by either one or both the primary amino groups.     

Controlled Modulation of Folate Polyglutamyl Tail Length by Metabolic Engineering of Lactococcus lactis

The dairy starter bacterium Lactococcus lactis is able to synthesize folate and accumulates >90% of the produced folate intracellularly, predominantly in the polyglutamyl form. Approximately 10% of the produced folate is released into the environment. Overexpression of folC in L. lactis led to an increase in the length of the polyglutamyl tail from the predominant 4, 5, and 6 glutamate residues in wild-type cells to a maximum of 12 glutamate residues in the folate synthetase overproducer and resulted in a complete retention of folate in the cells. Overexpression of folKE, encoding the bifunctional protein 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase and GTP-cyclohydrolase I, resulted in reduction of the average polyglutamyl tail length, leading to enhanced excretion of folate. By simultaneous overexpression of folKE and folC, encoding the enzyme folate synthetase or polyglutamyl folate synthetase, the average polyglutamyl tail length was increased, again resulting in normal wild-type distribution of folate. The production of bioavailable monoglutamyl folate and almost complete release of folate from the bacterium was achieved by expressing the gene for γ-glutamyl hydrolase from human or rat origin. These engineering studies clearly establish the role of the polyglutamyl tail length in intracellular retention of the folate produced. Also, the potential application of engineered food microbes producing folates with different tail lengths is discussed.     

Oxidative and reductive cleavage of folates--a critical appraisal.

A critical analysis has been made of the oxidative and reductive techniques employedfor cleavage of the C⁹-N¹⁰ bond of folic acid and its derivaatives. The assumption has previously been made that these cleavage reactions reduce folates to a common family of p-aminobenzoylglutamate derivatives varying only in the lengths of γ-polyglutamyl peptide side chains which are readily subjected to quantitative and qualitative analysis. This assumption is incorrect. Oxidation by potassium permanganate effectively cleaved folic acid, dihydrofolic acid, tetrahydrofolic acid, and 5-formyltetrahydrofolic acid to yield p-aminobenzoylglutamate. 5-Methyltetrahydrofolic acid was merely oxidized to 5-methyldihydrofolic acid while 5,10-methenyltetrahydrofolic acid and 10-formyltetrahydrofolic acid were oxidized to 10-formylfolate which was stable to further attack. Of all the folate derivatives tested only folic acid and dihydrofolic acid were cleaved to p-aminobenzoylglutamate by the zinc-hydrochloric acid reduction method. Both tetrahydrofolic acid and 5-methyltetrahydrofolic acid were stable under fully reducing conditions. 5,10-Methenyl-,10-formyl-, and 5-formyltetrahydrofolic acid yielded N-methyl-p-aminobenzoylglutamate. It is evident, therefore, that not only is the dominant mammalian tissue folate derivative, 5-methyltetrahydrofolate, resistant to cleavage by either method, but that a common family of p-aminobenzoylglutamate derivatives is not the end product of those folate compounds that are susceptible. While this may not invalidate the reports of the relative polyglutamate chain lengths of tissue folates such data should be regarded with some caution.     

Determination of pyrrolidone carboxylate and gamma-glutamyl amino acids by gas chromatography.

Gas chromatographic methods for the quantitation of pyrrolidone carboxylate and γ-glutamyl amino acids are described. These intermediates of the γ-glutamyl cycle were separated by ion exchange chromatography and converted to their N-acyl-ester derivatives in a reaction with a mixture of 2,2,3,3,3-pentafluoro-1-propanol and pentafluoropropionic anhydride. The derivatives have excellent electron capture properties thus making possible their determination even in small amounts of material of biological origin. The method was applied for the determination of concentrations of pyrrolidone carboxylate in human urine and cerebrospinal fluid, and in the brain, liver, and kidney of the mouse. It was also used to demonstrate the formation in mouse tissues of several γ-glutamyl derivatives of amino acids after administration of the corresponding free amino acid.     

Separation and identification of pteroylpolyglutamates by polyacrylamide gel chromatography.

A simplified procedure for the determination of the glutamate chain lengths of labeled and endogenous tissue folate is described. Pteroylpoly-γ-glutamates in tissue extracts were reductively cleaved at the C,9N,10 bond to p-aminobenzoylpolyglutamates, which were converted to azo dyes by coupling their diazonium salts with naphthylethylene diamine. The azo dyes were well resolved, according to glutamate chain length, by gel chromatography on Bio-Gel P4. Unlabeled tissue folates were detected by the absorbance of their azo dye derivatives. The major endogenous pteroylpolyglutamate in rat liver, identified colorimetrically using 0,5 g tissue, was the pentaglutamate. The major labeled folates in Lactobacillus casei and Streptococcus faecalis, after incubating these bacteria with labeled folic acid, were identified as the octa- and tetraglutamates, respectively. Reductive cleavage of 10-formylfolate and 5.10-methenyltetrahydrofolate resulted in a mixture of N-substituted and unsubstituted p-amino-benzoylpolyglutamates. Methods are described for the complete cleavage of these formyl derivatives to unsubstituted p-aminobenzoylpolyglutamates.     

Hydrolysis and transfer reactions catalyzed by gamma-glutamyl transpeptidase; evidence for separate substrate sites and for high affinity of L-cystine.

γ-Glutamyl transpeptidase was studied with L- and D-γ-glutamyl-p-nitroanilide as γ-glutamyl donors. No autotranspeptidation occurred with the D-γ-glutamyl donor or when the L-γ-glutamyl donor was used at concentrations lower than 10 μM. The K_m values for hydrolysis were 5 and 31 μM for the L- and D-γ-glutamyl donors, respectively; the corresponding V_max values were identical. The γ-glutamyl donor site of the enzyme thus exhibits low stereospecificity (but high affinity), while the acceptor site exhibits absolute L-specificity. The K_m value for L-cystine as acceptor is very low (30 μM); the same value was obtained with L- and D-γ-glutamyl donors. The data are consistent with a ping pong mechanism and the existence of separate donor and acceptor enzyme sites. The present findings thus extend the usefulness of γ-glutamyl-p-nitro-anilide as a substrate in probing the catalytic behavior of this enzyme.     

Determination of three different pools of reduced one-carbon-substituted folates. III. Reversed-phase high-performance liquid chromatography of the azo dye derivatives of p-aminobenzoylpoly-gamma-glutamates and its application to the study of unlabeled endogenous pteroylpolyglutamates of rat liver

A new reversed-phase high-performance liquid chromatographic (hplc) method is described for the separation and quantitation of picomole amounts of the azo dye derivatives of p-aminobenzoylpoly-γ-glutamates. In conjunction with our previously described procedures for the differential cleavage of one-carbon-substituted, reduced folates, this hplc method provides a rapid, sensitive, and reproducible approach to the quantitation and chain-length determination of three pools of unlabeled endogenous pteroylpolyglutamates. Analysis of rat liver (n = 9) yielded the following results ($\text{x}{}^1\text{±}\text{SE}$): total folates 14.5 ± 1.0 nmol/g; folates of pool 1 (5,10-methylenetetrahydro- and unsubstituted tetra- and dihydrofolates) 2.65 ± 0.74 nmol/g; folates of pool 2 (5-methyltetrahydrofolates) 5.30 ± 0.36 nmol/g; and folates of pool 3 (5,10-methenyltetrahydro-, 10-formyltetrahydro-, 5-formyltetrahydro-, and 5-formiminotetrahydrofolates) 6.40 ± 1.60 nmol/g. Most of the folates of rat liver occur as penta- (7.60 ± 0.69 nmol/g) and hexaglutamates (6.00 ± 0.29 nmol/g). In pool 3 the hexaglutamates predominate. We also report experiments showing that folate patterns based on the amount of radioactive label incorporated after a pulse dose of [³H]folic acid differ at all times from the true steady-state pattern of unlabeled endogenous folates.     

Modification of the acceptor binding site of gamma-glutamyl transpeptidase by the diazonium derivatives of p-aminohippurate and p-aminobenzoate

Hippurate and maleate have been shown to bind to the aminoacylglycine (acceptor) binding site of γ-glutamyl transpeptidase, thereby stimulating the hydrolysis of γ-glutamyl compounds at the expense of transpeptidation (Thompson, G. A., and Meister, A. (1979) J. Biol. Chem.254, 2956–2960; Thompson, G. A., and Meister, A. (1980) J. Biol. Chem.255, 2109–2113). It has now been found that a number of benzoate derivatives also bind and modulate rat kidney transpeptidase, as indicated by their ability to enhance the rate of inactivation of transpeptidase by the glutamine antagonist l-(αS, 5S)-α-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid (AT-125). Furthermore, rapid loss of transpeptidase activity results upon preincubation of the enzyme with the diazonium derivatives of p-aminohippurate and p-aminobenzoate. The modified enzyme can still hydrolyze γ-glutamyl substrates but is no longer modulated by hippurate and maleate. Loss of transpeptidase activity was not associated with incorporation of radioactive label from diazotized [¹⁴C]p-aminohippurate. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the modified enzyme revealed a nondissociable species, M_r 68,000, shown to result from crosslinking of the two subunits of transpeptidase (M_r 46,000 and 22,000, respectively). The crosslinking of the subunits paralleled the extent of inactivation of transpeptidation activity and both crosslinking and inactivation were prevented by treatment with the diazotized derivatives in the presence of either hippurate or maleate. These and other data indicate that the diazonium derivatives of p-aminohippurate and p-aminobenzoate interact with the acceptor binding site and produce a stable bond between amino acid residues in the vicinity of this site which, thus, appears to be located in the intersubunit contact region.     

Relationship between subfamilies,tribes and genera in iridaceae inferred from chemical characters

Free amino acids and γ-glutamyl peptides have been examined in 22 species of Iridaceae. 3-(3′-Carboxyphenyl)alanine and 3′-carboxyphenylglycine, previously known from the tribes Irideae and Tigridideae in the subfamily Iridodeae have been identified also in the tribe Mariceae of Iridoideae and the genera Bobartia, Orthrosanthus and Libertia of the subfamily Sisyrinchioideae. γ-Glutamyl peptides, previously known from the tribe Irideae, have been found also in the tribe Mariceae, both tribes being from subfamily Iridoideae. γ-Glutamyl-S-methylcysteine, γ-glutamylmethionine and the corresponding sulphoxides are the dominating γ-glutamyl peptides in the genera Dietes, Gynandriris, Moraea (tribe Irideae), Neomarica and Trimezia (tribe Mariceae), whereas γ-glutamyl peptides with non-sulphur amino acids are predominant in genera Ferraria, Hermodactylus, Homeria, Iris, Iridodyctyum and Xiphium (tribe Irideae). Dietes robisoniana, endemic to Lord Howe Island, has the same technical characters as other Dietes species from Southern Africa. The results are discussed in relation to botanical classification of and within the subfamilies Iridoideae and Sisyrinchoideae.     

The H(+)-dependent reduced folate carrier 1 of humans and the sodium-dependent methotrexate carrier-1 of the rat are orthologs

Previously, two different carrier systems for uptake of reduced folates and the antifolate methotrexate (Mtx) were described: the pH-dependent folate sensitive reduced folate carrier 1 (RFC1) from human, hamster and mouse and a sodium-dependent and folate insensitive Mtx carrier-1 (MTX-1) from rat. It was found that all critical residues of the homologous amino acid sequence were identical. RFC1- as well as MTX-1-mediated uptake of a marker substrate into suitable human and rat cell lines increased with proton concentration, was sodium-dependent at neutral pH, and inhibited by folate at acidic pH. It is concluded that RFC1 and MTX-1 are orthologs.     

Enzymatic synthesis of β-N-(γ-l(+)-glutamyl)-4-carboxyphenylhydrazine with Escherichia coli γ-glutamyltransferase

A new method for the synthesis of β-N-(γ-l(+)-glutamyl)-4-carboxyphenylhydrazine, a precursor of agaritine, is presented. This compound was prepared from l-glutamine and 4-hydrazinobenzoic acid through the transpeptidation reaction catalyzed by the Escherichia coli γ-glutamyltransferase. The optimum reaction conditions for the production of β-N-(γ-l(+)-glutamyl)-4-carboxyphenylhydrazine were 50 mM l-glutamine, 500 mM 4-hydrazinobenzoic acid and 40 U γ-glutamyltransferase/mL at pH 8 and 37 °C for 24 h. The product was obtained with a conversion rate of 90% (mol/mol). γ-Glutamyltransferase activity was not inhibited by 4-hydrazinobenzoic acid at concentrations up to 1000 mM. This simple and efficient method would facilitate the synthesis of glutamyl phenylhydrazine analogs, including agaritine.     

Dipeptide precursor of garlic odour in Marasmius species

γ-Glutamyl-marasmine, a new natural dipeptide containing an unusual cysteine sulphoxide moiety has been isolated from the Basidiomyceteous mushrooms Marasmius alliaceus, M. scorodonius and M. prasiosmus, which are known for their garlic like odour. It is shown that this compound is the common natural precursor and that its two step enzymatic cleavage leads to the odorous substances. In the first step γ-glutamyl -marasmine is cleaved by a γ-glutamyl transpeptidase. The formed marasmine is split in a second enzymatic reaction by a C-S lyase into pyruvic acid, ammonia and an unstable sulfur compound, which decomposes to form the odorous secondary products.     

Total Synthesis of Acetate from CO2: Methyltetrahydrofolate, an Intermediate, and a Procedure for Separation of the Folates

Whole-cell preparations of Clostridium thermoaceticum were exposed to a short pulse of (14)CO(2) under conditions in which double-labeled acetate was synthesized. Radioactive methyltetrahydrofolate monoglutamate, diglutamate, and triglutamates were isolated from extracts of the cells. The radioactivity was found to be exclusively in the five methyl position. The specific activities of the methyltetrahydrofolate derivatives were very high and were in accord with the proposal that methyltetrahydrofolates are the precursors of the methyl of acetate. A new method of separation of folates employing QAE-Sephadex chromatography and a linear gradient with triethylammonium bicarbonate is presented which completely resolves the common folate monoglutamates and, upon freeze-drying, yields salt-free preparations.     

Post-translational modification of glutamine and lysine residues of HIV-1 aspartyl protease by transglutaminase increases its catalytic activity

The human immunodeficiency virus type 1 aspartyl protease (HIV-1 PR) is a homodimeric aspartyl endopeptidase that is required for virus replication. HIV-1 PR was shown to act invitro as acyl-donor and -acceptor for both guinea pig liver transglutaminase (TG, EC 2.3.2.13) and human Factor XIIIa. These preliminary evidences suggested that the HIV-1 PR contains at least three TG-reactive glutaminyl and one lysyl residues. We report here that the incubation of HIV-1 PR with TG increases its catalytic activity. This increase is dependent upon the time of incubation, the concentration of TG and the presence of Ca²⁺. Identification of ε-(γ-glutamyl)lysine in the proteolytic digest of the TG-modified HIV-1 PR suggested intramolecular covalent cross-linking of this protease which may promote a non-covalent dimerization and subsequent activation of this enzyme via a conformational change. This hypothesis is supported by the observation that the TG-catalyzed activation of HIV-1 PR was completely abolished by spermidine (SPD) which acts as a competitive inhibitor of ε-(γ-glutamyl)lysine formation. Indeed, in the presence of 1 mM SPD the formation of the isopeptide was decreased of about 80%. The main products of the TG-catalyzed modification of HIV-1 PR in the presence of SPD were N₁-mono(γ-glutamyl)SPD and N₈-mono(γ-glutamyl)SPD. Negligible amount of N₁,N₈-bis(γ-glutamyl)SPD were found. The significance of these results is discussed with respect to the activation of the protease by post-translational modification and design of potential inhibitors.