Identification and characterization of a novel methionine γ-lyase gene from deep-sea sediment metagenomic library

World Journal of Microbiology and Biotechnology - A putative methionine γ-lyase (MGL) gene was identified from a deep-sea sediment metagenomic library. The gene (mgl_deepsea), consisting of...     

Engineering methionine γ-lyase from Citrobacter freundii for anticancer activity

Methionine deprivation of cancer cells, which are deficient in methionine biosynthesis, has been envisioned as a therapeutic strategy to reduce cancer cell viability. Methionine γ-lyase (MGL), an enzyme that degrades methionine, has been exploited to selectively remove the amino acid from cancer cell environment. In order to increase MGL catalytic activity, we performed sequence and structure conservation analysis of MGLs from various microorganisms. Whereas most of the residues in the active site and at the dimer interface were found to be conserved, residues located in the C-terminal flexible loop, forming a wall of the active site entry channel, were found to be variable. Therefore, we carried out site-saturation mutagenesis at four independent positions of the C-terminal flexible loop, P357, V358, P360 and A366 of MGL from Citrobacter freundii, generating libraries that were screened for activity. Among the active variants, V358Y exhibits a 1.9-fold increase in the catalytic rate and a 3-fold increase in K_M, resulting in a catalytic efficiency similar to wild type MGL. V358Y cytotoxic activity was assessed towards a panel of cancer and nonmalignant cell lines and found to exhibit IC₅₀ lower than the wild type. The comparison of the 3D-structure of V358Y MGL with other MGL available structures indicates that the C-terminal loop is either in an open or closed conformation that does not depend on the amino acid at position 358. Nevertheless, mutations at this position allosterically affects catalysis.     

A continuous spectrophotometric assay and nonlinear kinetic analysis of methionine γ-lyase catalysis

In this article, we present a new, easy-to-implement assay for methionine γ-lyase (MGL)-catalyzed γ-elimination reactions of l-methionine and its analogues that produce α-ketobutyrate (α-KB) as product. The assay employs ultraviolet–visible (UV–Vis) spectrophotometry to continuously monitor the rate of formation of α-KB by its absorbance at 315 nm. We also employ a nonlinear data analysis method that obviates the need for an “initial slope” determination, which can introduce errors when the progress curves are nonlinear. The spectrophotometric assay is validated through product analysis by ¹H NMR (nuclear magnetic resonance), which showed that under the conditions of study l-methionine (l-met) and l-methionine sulfone (l-met sulfone) substrates were converted to α-KB product with greater than 99% yield. Using this assay method, we determined for the first time the Michaelis–Menten parameters for a recombinant form of MGL from Porphyromonas gingivalis, obtaining respective k_cat and K_m values of 328 ± 8 min⁻¹ and 1.2 ± 0.1 mM for l-met γ-elimination and 2048 ± 59 min⁻¹ and 38 ± 2 mM for l-met sulfone γ-elimination reactions. We envisage that this assay method will be useful for determining the activity of MGL γ-elimination reactions that produce α-KB as the end product.     

Activation of β- and γ-carbonic anhydrases from pathogenic bacteria with tripeptides

Six tripeptides incorporating acidic amino acid residues were prepared for investigation as activators of β- and γ-carbonic anhydrases (CAs, EC 4.2.1.1) from the pathogenic bacteria Vibrio cholerae, Mycobacterium tuberculosis, and Burkholderia pseudomallei. The primary amino acid residues that are involved in the catalytic mechanisms of these CA classes are poorly understood, although glutamic acid residues near the active site appear to be involved. The tripeptides that contain Glu or Asp residues can effectively activate VchCAβ and VchCAγ (enzymes from V. cholerae), Rv3273 CA (mtCA3, a β-CA from M. tuberculosis) and BpsCAγ (γ-CA from B. pseudomallei) at 0.21–18.1?µM levels. The position of the acidic residues in the peptide sequences can significantly affect bioactivity. For three of the enzymes, tripeptides were identified that are more effective activators than both l-Glu and l-Asp. The tripeptides are also relatively selective because they do not activate prototypical α-CAs (human carbonic anhydrases I and II). Because the role of CA activators in the pathogenicity and life cycles of these infectious bacteria are poorly understood, this study provides new molecular probes to explore such processes.     

Why are the genomes of endosymbiotic bacteria so stable?

The comparative analysis of three strains of the endosymbiotic bacterium Buchnera aphidicola has revealed high genome stability associated with an almost complete absence of chromosomal rearrangements and horizontal gene transfer events during the past 150 million years. The loss of genes involved in DNA uptake and recombination in the initial stages of endosymbiosis probably underlies this stability. Gene loss, which was extensive during the initial steps of Buchnera evolution, has continued in the different Buchnera lineages since their divergence.     

Purification and some properties of γ-conglycinin in soybean seeds

A 7S globulin (γ-conglycinin) which was one of four major antigenic components in soybean globulins was purified and found to be homogeneous on ultracentrifugation, disc electrophoresis, immunoelectrophoresis and disc electrofocusing by gel filtration, preparative-scale disc electrophoresis and two kinds of affinity chromatography. Subsequently, some physico-chemical properties of the protein were determined. The sedimentation coefficient, isoelectric point, MW and diffusion constant were 6·55S, pH 5·80, 104000 and 5·80 × 10^?7 cm²/sec, respectively. The protein was a glycoprotein which contained 5·49% total carbohydrate per protein. The protein did not aggregate and dissociate with a change of ionic strength from 0·1 to 0·5.     

Denitrification in pathogenic bacteria: for better or worst?

A large variety of physiological and taxonomic groups have the ability to use nitrogen oxides as alternative electron acceptors. Brucella spp. is an alpha-proteobacteriaceae that induces a persistent disease in some mammals. Recent work has revealed that a denitrifying gene cluster is important in the interaction of Brucella neotomoae with its host.     

Identification of γ_1 subunit of GABA_A receptor in rat testis

INTRODUCTIONry-Aminobutyric acid (GABA) is the predomi-nant inhibitory neurotransmitter in the vertebratecentral nervous system (CNS)[1]. Whereas outsidethe CNS, many peripheral tissues have also beenfOund to have GABAergic system[2].The mammalian sperm acrosome reaction (AR)is a modified exocytotic event that is essential to thefertilization process[3]. Two main agOnists of AR,the zona pellucida glycoprotein ZP3[4] and proges-terone[5], have been identified in the oocyte vest-me…     

Identification of novel γ-secretase-associated proteins in detergent-resistant membranes from brain

In Alzheimer disease, oligomeric amyloid β-peptide (Aβ) species lead to synapse loss and neuronal death. γ-Secretase, the transmembrane protease complex that mediates the final catalytic step that liberates Aβ from its precursor protein (APP), has a multitude of substrates, and therapeutics aimed at reducing Aβ production should ideally be specific for APP cleavage. It has been shown that APP can be processed in lipid rafts, and γ-secretase-associated proteins can affect Aβ production. Here, we use a biotinylated inhibitor for affinity purification of γ-secretase and associated proteins and mass spectrometry for identification of the purified proteins, and we identify novel γ-secretase-associated proteins in detergent-resistant membranes from brain. Furthermore, we show by small interfering RNA-mediated knockdown of gene expression that a subset of the γ-secretase-associated proteins, in particular voltage-dependent anion channel 1 (VDAC1) and contactin-associated protein 1 (CNTNAP1), reduced Aβ production (Aβ40 and Aβ42) by around 70%, whereas knockdown of presenilin 1, one of the essential γ-secretase complex components, reduced Aβ production by 50%. Importantly, these proteins had a less pronounced effect on Notch processing. We conclude that VDAC1 and CNTNAP1 associate with γ-secretase in detergent-resistant membranes and affect APP processing and suggest that molecules that interfere with this interaction could be of therapeutic use for Alzheimer disease.     

Production of methionine γ- lyase in recombinant Citrobacter freundii bearing the hemoglobin gene

The production of antileukemic enzyme methionine γ-lyase (MGL) in distinctly related bacteria, Citrobacter freundii and in their recombinants expressing the Vitresocilla hemoglobin (VHb) has been studied. This study concerns the potential of Citrobacter freundii expressing the Vitreoscilla hemoglobin gene (vgb) for the methionine γ- liyase production. Methionine γ- liyase production by Citrobacter freundii and its vgb(-) and vgb(+) bearing recombinant strain was studied in shake-flasks under 200 rpm agitation, culture medium and 30 °C in a time-course manner. The vgb(+) and especially the carbon type had a dramatic effect on methionine γ- liyase production. The vgb(+) strain of C. freundii had about 2-fold and 3.1-fold higher levels of MGL than the host and vgb(-) strain, respectively.     

Over-expression of cystathionine γ-synthase in Arabidopsis thaliana leads to increased levels of methionine and S-methylmethionine

Cystathionine γ-synthase (CGS, EC 4.2.99.9), the first committed enzyme in methionine biosynthesis, was over-expressed in Arabidopsis thaliana by introducing in the genome of this plant the coding sequence of the Arabidopsis enzyme under the control of the cauliflower mosaic virus 35S promoter. In order to target the recombinant protein to the chloroplast, the transgene included the sequence encoding the N-terminal transit peptide of Arabidopsis CGS. CGS activity and polypeptide were increased several fold in these plants. There was a markedly increased level of soluble methionine in the leaves of the transformed plants, up to 15-fold, indicating that CGS is a rate-limiting enzyme in this metabolic pathway. In addition, the transformed plants strongly over-accumulated S-methylmethionine, but not S-adenosylmethionine, in agreement with the view that S-methylmethionine corresponds to a storage form of labile methyl groups in plants and/or plays a role in preventing S-adenosylmethionine accumulation. The same strategy was used to increase the level of cystathionine β-lyase (CBL, EC 4.4.1.8), the second committed enzyme in methionine biosynthesis, in transformed A. thaliana. Despite an increase in both CBL activity and polypeptide in transformed Arabidopsis plants over-expressing Arabidopsis CBL, there was very little change in the contents of soluble methionine and S-methylmethionine, suggesting strongly that CBL is not rate limiting in the methionine biosynthetic pathway.     

Effect of γ-radiation on some elements in certain organs of albino rats

Energy-dispersive X-ray fluorescence (EDXRF) was used to determine the concentrations of Ca, Cl, Fe, Ni, P, K, Se, S, and Zn in heart, lung, liver, spleen, and kidney of adult albino rats 2 mo after they were subject to a single gamma γ-radiation dose from⁶⁰Co at 5 gy. In female rats, K levels were significantly higher and the Ca levels significantly lower for the irradiated animals when compared to age-matched nonirradiated controls. Significant differences between irradiated and nonirradiated tissues were observed for other elements, although no sex-related differences could be found. Tissue damage and disturbances of biological functions were observed as a result of γ-irradiation.     

The role of amino acid residues in the active site of L-methionine γ-lyase from Pseudomonas putida

Cys116, Lys240*, and Asp241* (asterisks indicate residues from the second subunit of the active dimer) at the active site of L-methionine γ-lyase of Pseudomonas putida (MGL_Pp) are highly conserved among heterologous MGLs. In a previous study, we found that substitution of Cys116 for His led to a drastic increase in activity toward L-cysteine and a decrease in that toward L-methionine. In this study, we examined some properties of the C116H mutant by kinetic analysis and 3D structural analysis. We assumed that substitution of Cys116 for His broke the original hydrogen-bond network and that this induced a significant effect of Tyr114 as a general acid catalyst, possibly due to the narrow space in the active site. The C116H mutant acquired a novel β-elimination activity and lead a drastic conformation change in the histidine residue at position 116 by binding the substrate, suggesting that this His residue affects the reaction specificity of C116H. Furthermore, we suggest that Lys240* is important for substrate recognition and structural stability and that Asp241* is also involved in substrate specificity in the elimination reaction. Based on this, we suggest that the hydrogen-bond network among Cys116, Lys240*, and Asp241* contributes to substrate specificity that is, to L-methionine recognition at the active site in MGL_Pp.     

A critical life-supporting role for cystathionine γ-lyase in the absence of dietary cysteine supply

This study examined the important relationship between cystathionine γ-lyase (CSE) functionality and cysteine supply for normal growth and life span. Mice with a targeted deletion of the CSE gene (CSE-KO) were fed a cysteine-limited diet and their growth and survival patterns as well as levels of cysteine, homocysteine, glutathione, and hydrogen sulfide (H2S) were measured. CSE-KO mice fed a cysteine-limited diet exhibited growth retardation; decreased levels of cysteine, glutathione, and H2S; and increased plasma homocysteine level. However, histological examinations of liver did not reveal any abnormality and plasma levels of aspartate aminotransferase, alanine aminotransferase, and albumin were normal in these animals. No CSE-KO mice survived after 12 weeks of feeding with the cysteine-limited diet. Supplementation of H2S to the CSE-KO mice failed to reverse the aforementioned abnormalities. On the other hand, supplementation of cysteine in the drinking water of the CSE-KO mice significantly increased plasma cysteine and glutathione levels. This eventually led to an increase in body weight and rescued the animals from death. In conclusion, CSE is critical for cysteine biosynthesis through the transsulfuration pathway and the combination of CSE deficiency and lack of dietary cysteine supply would threaten life sustainability.     

Three-dimensional structures of noncovalent complexes of <Emphasis Type="Italic">Citrobacter freundii</Emphasis> methionine γ-lyase with substrates

Crystal structures of Citrobacter freundii methionine γ-lyase complexes with the substrates of γ-(L-1-amino-3-methylthiopropylphosphinic acid) and β-(S-ethyl-L-cysteine) elimination reactions and the competitive inhibitor L-nor-leucine have been determined at 1.45, 1.8, and 1.63 Å resolution, respectively. All three amino acids occupy the active site of the enzyme but do not form a covalent bond with pyridoxal 5′-phosphate. Hydrophobic interactions between the active site residues and the side groups of the substrates and the inhibitor are supposed to cause noncovalent binding. Arg374 and Ser339 are involved in the binding of carboxyl groups of the substrates and the inhibitor. The hydroxyl of Tyr113 is a potential acceptor of a proton from the amino groups of the amino acids.