Acetyl Coenzyme A: Deacetylvindoline O-Acetyltransferase,A Novel Enzyme from Catharanthus

A new enzyme, Acetyl Coenzyme A: deacetylvindoline 0-acetyl transferase (EC 2.3.1. -) which catalyses the synthesis of vindoline from acetyl coenzyme A and deacetylvindoline was isolated from the soluble protein extract of Catharanthus roseus leaves and purified approximately 365-fold. The enzyme had an apparent pI of 4.6 upon chromatofocusing, an apparent molecular weight of 45,000 daltons and a pH optimum between 8.0 to 9.0. Dithiothreitol was essential to maintain enzyme activity.Substrate saturation studies of this enzyme resulted in Michaelis Menton kinetics giving Km values of 5.4 and 0.7µM respectively for acetyl coenzyme A and deacetylvindoline. Studies of the forward reaction demonstrated an absolute requirement for acetyl coenzyme A and deacetylvindoline derivatives containing a double bond at positions 6, 7, whereas the reverse reaction occurred only in the presence of free coenzyme A and vindoline derivatives containing the same double bond. The forward reaction was subject to product inhibition by coenzyme A with an apparent Ki of 8 µM, but was not inhibited by up to 2 mM vindoline. The rate of reaction could therefore be regulated by the level of free coenzyme A in the cell, unaffected by the accumulation of indole alkaloid product.It was suggested that this enzyme catalyses a late step in the biosynthesis of vindoline.     

Specific antibodies to bovine choline acetyltransferase raised in mice immunised with small amounts of partially purified enzyme

Choline acetyltransferase was purified approximately 18,000-fold from 300 g of bovine caudate nuclei to a specific activity of 21 μmol min mg protein. The overall procedure used was: extraction of the enzyme by high salt concentration, chromatography on carboxy-methyl-Sephadex, precipitation by ammonium sulphate, affinity chromatography on Blue-Sepharose and, finally absorption on hydroxylapatite. When the enzyme absorbed on hydroxylapatite was injected into mice, it provoked reproducibly a transient production of ‘inhibitory’ antibodies, followed by higher antibody titres mainly of ‘non-inhibitory’ type. These responses were elicited by injecting less than a total of 20 μg of immunogen. The highest antibody titre was obtained less than 2 months following the initial immunisation. Species cross reactivity was investigated. This procedure should prove to be of value in the production of monoclonal antibodies to choline acetyltransferase.     

Reduction of sialic acid O-acetylation in human colonic mucins in the adenoma-carcinoma sequence

The oligo-O-acetylation of sialic acids found in normal colonic mucins is greatly reduced in colorectal cancer. Mucins prepared from cancer tissue in adenocarcinoma showed this reduction, while normal O-acetylation was detected in resection margin and control cases and total mucin sialic acid content was significantly decreased in cancer vs control samples. A reduction of the O-acetyl transferase activity catalysing the O-acetylation reaction was also found. A series of cultured human colorectal cell lines derived from the same premalignant adenomatous line, and representative of the adenoma-carcinoma sequence were examined and revealed a depletion of oligo-O-acetylation in the original diploid premalignant line, re-expression in a further premalignant line and reduction in malignant mucinous and adenocarcinoma cell lines. Reduction of sialic acid O-acetylation appears as an early event in the process of malignant transformation in human colorectal cancer.     

Investigation of core machinery for biosynthesis of Vi antigen capsular polysaccharides in Gram-negative bacteria

Salmonella enterica serovar Typhi causes typhoid fever. It possesses a Vi antigen capsular polysaccharide coat that is important for virulence and is the basis of a current glycoconjugate vaccine. Vi antigen is also produced by environmental Bordetella isolates, while mammal-adapted Bordetella species (such as Bordetella bronchiseptica) produce a capsule of undetermined structure that cross-reacts with antibodies recognizing Vi antigen. The Vi antigen backbone is composed of poly-α-(1→4)-linked N-acetylgalactosaminuronic acid, modified with O-acetyl residues that are necessary for vaccine efficacy. Despite its biological and biotechnological importance, some central aspects of Vi antigen production are poorly understood. Here we demonstrate that TviE and TviD, two proteins encoded in the viaB (Vi antigen production) locus, interact and are the Vi antigen polymerase and O-acetyltransferase, respectively. Structural modeling and site-directed mutagenesis reveal that TviE is a GT4-family glycosyltransferase. While TviD has no identifiable homologs beyond Vi antigen systems in other bacteria, structural modeling suggests that it belongs to the large SGNH hydrolase family, which contains other O-acetyltransferases. Although TviD possesses an atypical catalytic triad, its O-acetyltransferase function was verified by antibody reactivity and ¹³C NMR data for tviD-mutant polysaccharide. The B. bronchiseptica genetic locus predicts a mode of synthesis distinct from classical S. enterica Vi antigen production, but which still involves TviD and TviE homologs that are both active in a reconstituted S. Typhi system. These findings provide new insight into Vi antigen production and foundational information for the glycoengineering of Vi antigen production in heterologous bacteria.     

Hymenolepis diminuta: quantity of host amino acid dietary supplement and growth

Rats, each inoculated with 10 cysticercoids of Hymenolepis diminuta, were fed a synthetic protein-free, high-carbohydrate diet during the last 7 days of a 15-day experimental period. The diets were supplemented by isomolecular quantities of eight neutral amino acids, which differed in their molecular configuration and in their rate of absorption by the intestinal mucosa. The addition of an amino acid supplement to the host diet resulted in decreases in the dry weight, total nitrogen, total carbohydrate, and nonprotein dry weight components of the worms. Up to fourfold increases in the amount of the amino acid supplement did not result in corresponding decreases in worm dry weight, etc. The rate at which an amino acid is absorbed by the intestinal mucosa significantly affects worm growth: faster absorption, less decrease in worm size. Amino acids with the same type of molecular configuration have different effects on worm growth, indicating that this factor is not correlated with the decreases in worm dry weight, and associated parameters.     

Requirement of the expression of 3-phosphoglycerate dehydrogenase for traversing S phase in murine T lymphocytes following immobilized anti-CD3 activation

Murine resting (G₀) T lymphocytes contained no detectable mRNA of 3-phosphoglycerate dehydrogenase (PHGDH) catalyzing the first step in the phosphorylated pathway of l-serine biosynthesis. Immobilized anti-CD3 activation of G₀ T cells expressed the PHGDH mRNA in G₁ with a maximum level in S phase. G₀ T cells activated with either immobilized anti-CD3 plus CsA or PBu₂, which failed to drive the activated T cells to enter S phase, did not express the PHGDH mRNA unless exogenous rIL-2 was added. Blocking of IL-2R signaling by adding anti-IL-2 and anti-IL-2Rα resulted in no expression of the PHGDH mRNA during immobilized anti-CD3 activation of G₀ T cells. Deprivation of l-serine from culture medium or addition of antisense PHGDH oligonucleotide significantly reduced [³H]TdR incorporation of activated T cells. These results indicate that the PHGDH gene expression, dictated by IL-2R signaling, is a crucial event for DNA synthesis during S phase of activated T cells.     

Functional analysis of L-serine O-acetyltransferase from Corynebacterium glutamicum

We report here the function of L-serine O-acetyltransferase (SAT) from the glutamic acid-producing bacterium Corynebacterium glutamicum. Based on the genome sequence of C. glutamicum and the NH(2)-terminal amino-acid sequence, the gene encoding SAT (cysE) was cloned and expressed in C. glutamicum. Deletion analysis of the 5'-noncoding region showed a putative -10 region ((-27)TTAAGT(-22) or (-26)TAAGTC(-21)) and a possible ribosome-binding site ((-12)AGA(-10)) just upstream from the start codon. We found that the SAT activity was sensitive to feedback inhibition by L-cysteine, and that SAT synthesis was repressed by L-methionine. Further, cysE-disrupted cells showed L-cysteine auxotrophy, indicating that C. glutamicum synthesizes L-cysteine from L-serine via O-acetyl-L-serine through the pathway involving SAT and O-acetyl-L-serine sulfhydrylase in the same manner as Escherichia coli.     

In Vivo Evidence for the Link Between l- and d-Serine Metabolism in Rat Cerebral Cortex

Abstract: To obtain an insight into the metabolic pathways of endogenous d -serine in mammalian brains, we have investigated in the infant rat the effects of systemic administration of l -serine, d -serine, and related amino acids, including glycine and threonine, on the amino acid contents in the cerebral cortex. Intraperitoneal injection of l -serine induced a rapid and transient elevation of the levels of l -serine itself in the neocortex, with its peak at 3 h post injection, and a delayed and prolonged increase in d -serine contents from 1.5 h to at least 24 h thereafter. Similarly, a significant augmentation in cerebral d -serine contents was observed 6 h after intraperitoneal administration of glycine, which also elevated the cortical l -serine levels. In contrast, l -threonine injection affected the concentrations of neither d - nor l -serine in the cortex of the pups. d -Serine given systemically, in turn, increased the neocortical contents of l -serine as well as d -serine itself, but failed to alter those of glycine and l -threonine. These in vivo data suggest the possible link between metabolic pathways of d - and l -serine in the cerebral cortex of the rat.     

Enzymatic 4-O-acetylation of N-acetylneuraminic acid in guinea-pig liver

Sialic acids from the liver and serum of guinea-pig are composed of N-acetylneuraminic acid (Neu5Ac; 85% and 61%, respectively), N-acetyl-4-O-acetylneuraminic acid (Neu4,5Ac2; 10% and 32%, respectively) and N-glycolylneuraminic acid (Neu5Gc; 5% and 7%, respectively), besides traces of N-glycolyl-4-O-acetylneuraminic acid in serum. The analysis was carried out using thin-layer chromatography, high-performance liquid chromatography, electron impact ionization mass spectrometry, and different enzymes (sialidase, sialate esterase, and sialate-pyruvate lyase after hydrolysis and purification of the sialic acids by ion-exchange chromatography). We showed that this O-acetylation of sialic acids is due to the activity of an acetyl-coenzyme A:sialate-4-O-acetyltransferase (EC 2.3.1.44), which occurs together with sialyltransferase activity in Golgi-enriched membrane fractions of guinea-pig liver. The enzyme operates optimally at 30°C in 70 mM potassium phosphate buffer at pH 6.7 and in the presence of 90 mM KCl with an apparent KM for AcCoA of 0.6 1M and a Vmax of 20 pmol/mg protein x min. The enzyme is inhibited by coenzyme A in a mixed-competitive manner (Ki = 4.2 M), as well as by para-chloromercuribenzoate, MnCl2, saponin and Triton X-100.