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.     

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.     

Cloning and expression of Citrobacter freundii β-isopropylmalate dehydrogenase gene in both Escherichia coli and Bacillus subtilis

Summary -Isopropylmalate (IPM) dehydrogenase gene of Citrobacter freundii was cloned in both Escherichia coli and Bacillus subtilis. Plasmid pCBL 1 containing C. freundii -IPM dehydrogenase gene was isolated using E. coli (leuB) as a host, pBR 322 as a vector and Hind III as an enzyme. The molecular weight (mol.wt.) of pCBL 1 was 7.7 megadalton (Md) and the plasmid was restricted at two sites by Hind III or Sal I, at three sites by BamH I and at four sites by Pst I. The second hybrid plasmid pCBL 2 containing -IPM dehydrogenase gene was reconstructed from 2.1 Md Pst I fragment of pCBL 1 and pBR 322. -IPM dehydrogenase activities of E. coli transformants with pCBL 1 or pCBL 2 were 2–7-fold higher than those of the present strains. The -IPM dehydrogenase gene was transferred from pBR 322 to pLS 353, a shuttle vector between E. coli and B. subtilis. The third plasmid, pCBL 3 (mol.wt. 5.6Md), was cloned in B. subtilis (leuC) and expressed the enzyme activity which complemented the Leucharacter. The enzyme activities of B. subtilis transformants with pCBL 3 were about 5-fold higher than those of present strains. Thus, the C. freundii gene was effectively expressed in both E. coli and B. subtilis.     

Pre-steady-state Kinetic and Structural Analysis of Interaction of Methionine γ-Lyase from Citrobacter freundii with Inhibitors

Methionine γ-lyase (MGL) catalyzes the γ-elimination of l-methionine and its derivatives as well as the β-elimination of l-cysteine and its analogs. These reactions yield α-keto acids and thiols. The mechanism of chemical conversion of amino acids includes numerous reaction intermediates. The detailed analysis of MGL interaction with glycine, l-alanine, l-norvaline, and l-cycloserine was performed by pre-steady-state stopped-flow kinetics. The structure of side chains of the amino acids is important both for their binding with enzyme and for the stability of the external aldimine and ketimine intermediates. X-ray structure of the MGL·l-cycloserine complex has been solved at 1.6 Å resolution. The structure models the ketimine intermediate of physiological reaction. The results elucidate the mechanisms of the intermediate interconversion at the stages of external aldimine and ketimine formation.     

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 versatile bacterial enzyme: l-methionine γ-lyase

The properties and application of l-methionine γ-lyase [methioninase, l-methionine methanethiol-lyase (deaminating), EC 4.4.1.11], a pyridoxal 5′-phosphate enzyme, purified from Pseudomonas putida and Aeromonas sp. are presented. The enzyme has multicatalytic functions: it catalyses α,γ-elimination and γ-replacement reactions of l-methionine and its analogues (e.g. ethionine, homocysteine, O-acetylhomoserine and selenomethionine), α,β-elimination and β-replacement reactions of l-cysteine and its analogues (e.g. S-methylcysteine, O-acetylserine and Se-methylselenocysteine), deamination and γ-addition of vinylglycine, and deuterium labelling at the α and β positions of l-methionine and other straight-chain l-amino acids. These reactions are applicable to the synthesis of various optically active sulphur and selenium amino acids, preparation of deuterium or tritium labelled l-amino acids, and determination of sulphur amino acids. In addition, the enzyme shows potent anti-neoplastic activity.     

Cloning and expression of a β-glycosidase gene from Thermus thermophilus. Sequence and biochemical characterization of the encoded enzyme

A 3.2 kilobase pair DNA fragment from Thermus thermophilus HB27 coding for a -galactosidase activity was cloned and sequenced. A gene and a truncated open reading frame orf1 encoding respectively a -glycosidase (tt-gly) and probably a sugar permease were located directly adjacent to each other. The deduced aminoacid sequence of the enzyme Tt-gly showed strong identity with those of -glycosidases belonging to the glycosyl hydrolase family 1. The enzyme was overexpressed in Escherichia coli and was purified by a two-step purification procedure. The recombinant enzyme is monomeric with a molecular mass of 49-kDa. It catalyzes the hydrolysis of -D-galactoside, -D-glucoside and -D-fucoside derivatives. However, the kcat/Km ratio is much higher for p-nitrophenyl--D-glucoside and p-nitrophenyl--D-fucoside than for p-nitrophenyl--D-galactoside. The specificity towards linkage positions of the disaccharides tested decreased in the following order: 1-3 (100%) < 1-2 (71%) < 1-4 (40%) < 1-6 (10%). Tt-gly is a thermostable enzyme displaying an optimum temperature of 88°C and a half life of 10 min at 90°C. It performs transglycosylation reactions at high temperature with a yield exceeding 63% for transfucosylation reactions. On the basis of this work, the enzyme appears to be an attractive tool in the synthesis of fucosyl adducts and fucosyl sugars.     

Cloning and expression of sucrose phosphorylase gene from Bifidobacterium longum in E. coli and characterization of the recombinant enzyme

A DNA fragment, which complemented the growth of E. coli both on M9 medium containing raffinose and on LB medium containing ampicillin, IPTG and 5-bromo-4-chloro-3-indoxyl--d-galactoside, was isolated from the genomic library of Bifidobacterium longum SJ32, which had been digested with EcoRI. In the cloned DNA fragment, a gene encoding a sucrose phosphorylase (splP) and a partially cloned putative sucrose regulator gene (splR) were identified using the deletion analysis and sequence analysis. A 56 kDa protein was synthesized in E. coli and partially purified by DEAE-ion exchange chromatography. The partially purified enzyme did not react with melibiose, melezitoze and raffinose but did with sucrose. It had transglucosylation activity in addition to hydrolytic activity.     

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...     

Cloning and characterization of a novel exo-α-1,5-L-arabinanase gene and the enzyme

A novel exo-alpha-1,5-L-arabinanase gene (arn3) was isolated, cloned, and expressed in E. coli. The recombinant enzyme (ARN3) had a pH optimum of 6.0-7.0 and a pH 3.0-7.0 stability range. The temperature optimum was 50 degrees C with a stability less than or equal to 45 degrees C. The recombinant ARN3 cleaved carboxymethyl (CM)-arabinan, debranched arabinan, and linear arabinan at a decreasing rate and is inactive on sugar beet arabinan, wheat arabinoxylan, and p-nitrophenyl-alpha-L-arabinofuranoside. The enzyme hydrolyzed debranched arabinan and synthetic arabino-oligosaccharides entirely to arabinose. The apparent K(m) and V(max) values were determined to be 6.2+/-0.3 mg/ml and 0.86+/-0.01 mg ml(-1) min(-1), respectively (pH 7.0, 37 degrees C, CM-arabinan). Multiple sequence alignment and homology modeling revealed unique short sequences of amino acids extending the loop involved in partial blocking of one end of the substrate-binding site on the surface of the molecule.     

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.     

Cloning, analysis and expression of the gene for β-glycosidase of Thermus caldophilus GK24 and properties of the enzyme

The gene (bglT) encoding Thermus caldophilus GK24 -glycosidase (Tca -glycosidase) was cloned and sequenced. The gene contains an open reading frame encoding 431 amino acids with a M _r of 48 658 Da. The bglT gene was expressed under the control of tac promoter on a high-copy plasmid in E. coli. The recombinant Tca -glycosidase was purified 41.5-fold with a 59% yield and a specific activity of 83 U mg^–1 protein.     

Cloning and characterization of the bgxA gene from Erwinia chrysanthemi D1 which encodes a β-glucosidase/xylosidase enzyme

A β-glucosidase/xylosidase gene from Erwinia chrysanthemi strain D1 was cloned and sequenced. This gene, named bgxA, encodes a ca. 71 kDa protein product which, following removal of the leader peptide, resulted in a ca. 69 kDa mature protein that accumulated in the periplasmic space of E. chrysanthemi strain D1 and Escherichia coli cells expressing the cloned gene. The protein exhibited both β-glucosidase and β-xylosidase activities but gave no detectable activity on xylan or carboxymethyl cellulose. The enzyme was classified as a type 3 glycosyl hydrolase, but was unusual in having a truncated B region at the carboxyl-terminus. Several E. chrysanthemi strains isolated from corn produced the glucosidase/xylosidase activity but not those isolated from dicot plants. However, bgxA marker exchange mutants of strain D1 were not detectably altered in virulence on corn leaves.     

Cloning and expression of the endo-1,3(4)-β-glucanase gene from Paecilomyces sp. FLH30 and characterization of the recombinant enzyme

The cDNA encoding β-1,3(4)-glucanase, named PsBg16A, from Paecilomyces sp. FLH30 was cloned, sequenced, and over expressed in Pichia pastoris, with a yield of about 61,754 U mL?1 in a 5-L fermentor. PsBg16A has an open reading frame of 951 bp encoding 316 amino acids, and the deduced amino acid sequence of PsBg16A revealed that it belongs to glycoside hydrolase family 16. The purified recombinant PsBg16A had a pH optimum at 7.0 and a temperature optimum at 70 °C, and randomly hydrolyzed barley β-glucan, lichenin, and laminarin, suggesting that it is a typical endo-1,3(4)-β-glucanase (EC 3.2.1.6) with broad substrate specificity for β-glucans.     

Molecular Cloning of the Phytase Gene from Citrobacter braakii and its Expression in Saccharomyces cerevisiae

The gene, appA, encoding phytase was cloned from a size-selected genomic library of Citrobacter braakii YH-15 by Southern hybridization using a degenerate probe based on the N-terminal amino acid sequence of the phytase. The deduced amino acid sequence of appA contained the N-terminal RHGXRXP motif and the C-terminal HD motif, which are common in histidine acid phosphatases. It also had significant homology (60% identity) with phytase from Escherichia coli, while the physical mapping analysis of appA revealed that gene organization near appA in C. braakii was similar to that in Salmonella typhimurium genome. C. braakii AppA contained five putative N-glycosylation sites. The recombinant phytases, rAppA_Ec and rAppA_Sc, were produced in E. coli and Saccharomyces cerevisiae, respectively, with both being fused with C-terminal His-tag. After purification, rAppA_Sc was shown to be hyperglycosylated by Endo-H treatment. It had greater thermostability than the wild type phytase and rAppA_Ec.     

Structural characterization and promoter activity analysis of the γ-kafirin gene from sorghum

A genomic clone encoding the γ-kafirin gene from sorghum was isolated and sequenced. A 2938 bp sequenced fragment includes an intronless open reading frame of 636 nucleotides encoding a putative polypeptide of 212 amino acids. Comparison of the deduced amino acid sequence of γ-kafirin with the published sequences of γ-prolamins of maize, and Coix revealed highly conserved domains. The N-terminal region of these proteins contains the conserved hexapeptide PPPVHL, which is repeated eight times in γ-zein, four times in γ-kafirin and three times in γ-coixin. The number of PPPVHL repeats accounts predominantly for the differences in the molecular weights of γ-prolamins. Several putative regulatory sequences common to the γ-kafirin and γ-zein genes were identified in both the 5′ and the 3′ flanking regions. Putative GCN4-like regulatory sequences were found at positions ?192 and ?476 in the 5′ flanking region of γ-kafirin. In the 3′ noncoding region, three putative polyadenylation signals, two AATAAT and one AATGAA, were found at positions + 658, + 716, and + 785, respectively. In order to investigate the role of the putative GCN4-like motifs and other possible cis-acting element(s) of the γ-kafirin promoter, a series of deleted and chimeric promoter constructs were introduced into maize, Coix and sorghum tissues by particle bombardment. Histochemical analysis of β-glucuronidase (GUS) activity in different tissues indicated that the element(s) responsible for tissue specificity is probably located in the 285-bp proximal region of the promoter, while the remaining promoter sequence seems to carry the element(s) responsible for the quantitative response.