O-acetylhomoserine sulfhydrylase from Clostridium novyi. Cloning, expression of the gene and characterization of the enzyme.

The gene NT01CX_1210 of pathogenic bacterium Clostridium novyi annotated as encoding O-acetylhomoserine sulfhydrylase was cloned and expressed in Escherichia coli. The gene product having O-acetylhomoserine sulfhydrylase activity was purified to homogeneity. The protein showed molecular mass of approximately 184 kDa for the native form and 46 kDa for the subunit. The enzyme catalyzes the γ-substitution reaction of O-acetylhomoserine with maximum activity at pH 7.5. Analysis of C. novyi genome allowed us to suggest that there is only one way for the synthesis of l-methionine in the bacterium. The data obtained may provide the basis for further study of the role of OAHS in Clostridium bacteria and an ascertainment of its mechanism.

Identification of O-acetylhomoserine sulfhydrylase, a putative enzyme responsible for methionine biosynthesis in Clostridioides difficile: Gene cloning and biochemical characterizations.

O-acetylhomoserine sulfhydrylase (OAHS) is a pyridoxal 5'-phosphate-dependent enzyme involved in microbial methionine biosynthesis. In this study, we report gene cloning, protein purification, and some biochemical characteristics of OAHS from Clostridioides difficile. The enzyme is a tetramer with molecular weight of 185 kDa. It possesses a high activity in the reaction of L-homocysteine synthesis, comparable to reported activities of OAHSes from other sources. OAHS activity is inhibited by metabolic end product L-methionine. L-Propargylglycine was found to be a suicide inhibitor of the enzyme. Substrate analogue Nγ -acetyl-L-2,4-diaminobutyric acid is a competitive inhibitor of OAHS with Ki = 0.04 mM. Analysis of C. difficile genome allows to suggest that the bacterium uses the way of direct sulfhydrylation for the synthesis of L-methionine. The data obtained may provide the basis for further study of the role of OAHS in the pathogenic bacterium and the development of potential inhibitors.

Gene cloning, characterization, and cytotoxic activity of methionine γ-lyase from Clostridium novyi.

The exploitation of methionine-depleting enzyme methionine γ-lyase (MGL) is a promising strategy against specific cancer cells that are strongly dependent on methionine. To identify MGL from different sources with high catalytic activity and efficient anticancer action, we have expressed and characterized MGL from Clostridium novyi and compared its catalytic efficiency with the previously studied MGL from Citrobacter freundii. The purified recombinant MGL exhibits kcat and kcat /Km for methionine γ-elimination reaction that are 2.4- and 1.36-fold higher than C. freundii enzyme, respectively, whereas absorption, fluorescence, and circular dichroism spectra are very similar, as expected on the basis of 87% sequence identity and high conservation of active site residues. The reactivity of cysteine residues with DTNB and iodoacetamide was investigated as well as the impact of their chemical modification on catalytic activity. This information is relevant because for increasing bioavailability and reducing immunogenity, MGL should be decorated with polyethylene glycol (PEG). It was found that Cys118 is a faster reacting residue, which results in a significant decrease in the γ-elimination activity. Thus, the protection of Cys118 before conjugation with cysteine-reacting PEG represents a valuable strategy to preserve MGL activity. The anticancer action of C. novyi MGL, evaluated in vitro against prostate (PC-3), chronic myelogenous leucemia (K562), and breast (MDA-MB-231 and MCF7) cancer cells, exhibits IC50 of 1.3 U mL-1 , 4.4 U mL-1 , 1.2 U mL-1 , and 3.4 U mL-1 , respectively. A higher cytotoxicity of C. novyi MGL was found against cancer cells with respect to C. freundii MGL, with the exception of PC-3, where a lower cytotoxicity was observed. © 2017 IUBMB Life, 69(9):668-676, 2017.