[Effect of L-lysine alpha-oxidase from Trichoderma cf. aureoviride Rifai ВКМF-4268D on pheochromocytoma PC12 cell line].

L-Amino acid oxidases (L-ААО, EC 1.4.3.2) comprise a group of flavoproteins, catalyzing oxidative deamination of L-alpha amino acids to the corresponding alpha-keto acids, NH3 and Н2О2. In most cases these enzymes present homodimeric molecules with a molecular mass of 100-150 kDa, which were shown to possess antiviral, antifungal and antitumor activity. L-lysine alpha-oxidase (LO) holds an outstanding place among this group of enzymes and its biological role may differ significantly from the other L-AAO, because it cleaves an essential amino acid - L-lysine without significant action on the other amino acids. Although much research has examined LO effects in the organism, the molecular basis of these effects is yet to be identified. To fill this gap, the present work addressed one of hypothetical mechanisms of LO biological action using the enzyme from Trichoderma cf. aureoviride Rifai ВКМF-4268D and rat pheochromocytoma PC-12 as a model cell line. Using flow cytometry a dose-dependent cytotoxicity of LO was shown. The significant growth of intracellular reactive oxygen species levels, detected by 2,7-dichlorodihydrofluorescein assay, implies generation of peroxide as one of the molecular mechanisms of LO cytotoxic action, although this does not rule out other probable ways of LO action in the organizm.

[Characteristic effects of L-lysine-alpha-oxidase, an antitumor enzyme produced by Trichoderma sp].

Acute toxicity of L-lysine-alpha-oxidase, an antitumor enzyme of fungal origin was studied. After intravenous administration in a dose of 3000 U/kg the substance induced no signs of intoxication in the laboratory animals or their death. Direct dependence of the vessel permeability increase on the enzyme concentration was determined. In experiments on rabbits and guinea pigs L-lysine-alpha-oxidase showed no local irritating effect.

Molecular characterization of Trimeresurus stejnegeri venom L-amino acid oxidase with potential anti-HIV activity.

A novel L-amino acid oxidase, named TSV-LAO, has been purified and cloned from the snake Trimeresurus stejnegeri. Fifty percentage cytotoxic concentrations (CC50) of TSV-LAO on C8166 cells were 24 and 390 nM in the absence or presence of catalase (400 nM), respectively. However, at concentrations that showed little effect on cell viability, TSV-LAO displayed dose dependent inhibition on HIV-1 infection and replication. The antiviral selectivity indexes (CC50/EC50) were 16 and 6, respectively, corresponding to the measurements of syncytium formation and HIV-1 p24 antigen expression. Interestingly, the presence of catalase resulted in an increase of its antiviral selectivity to 52 and 38. Under the same conditions, no anti-HIV-1 activity was observed by exogenous addition of H2O2. The complete amino acid sequence of TSV-LAO, as deduced from its cDNA, exhibits a high degree of sequence identity with other snake venom LAOs.

Inhibition of human platelet aggregation by L-amino acid oxidase purified from Naja naja kaouthia venom.

L-Amino acid oxidase (LAO) widely exists in snake venoms. Purification of LAO from the Naja naja kaouthia (monocellate cobra) venom has been reported (Tan and Swaminathan, 1992), but its structural characterization and physiological function remained to be determined. The function of snake venom LAOs in hemostasis, especially their effect on platelet aggregation, has been controversial. We determined the N-terminal amino acid sequence of the N. n. kaouthia LAO named K-LAO to be DDRRSPLEECFQQNDYEEFLEIAKNGLKKTxNPKHVXxV (38 residues). The protein data base search revealed that the enzyme had high similarities with other snake venom LAOs. Further, platelet aggregation studies revealed that K-LAO functionally did not induce platelet aggregation in a platelet-rich plasma system, but that it inhibited platelet aggregation induced by agonists such as ADP, collagen and ristocetin in a dose-dependent manner. K-LAO diminished platelet aggregation more intensely under low than high shear stress. This inhibitory activity of K-LAO on either ristocetin-induced or shear-induced platelet aggregation was quenched by addition of catalase. These results indicate that K-LAO functions as an inhibitor to platelet aggregation through the formation of hydrogen peroxide. The enzyme may contribute to the development of a severe hematological disorder due to cobra envenomation.

Isolation and structural characterization of a cytotoxic L-amino acid oxidase from Agkistrodon contortrix laticinctus snake venom: preliminary crystallographic data.

We have purified a cytotoxic L-amino acid oxidase (LAO) from Agkistrodon contortrix laticinctus snake venom by means of Superdex-200 gel filtration, followed by phenyl-Sepharose CL-4B chromatography. The purified enzyme (ACL LAO) is a dimer on gel filtration, with a M(r) of 60,000 for the monomer as estimated by SDS-PAGE. LAO activity was tested against 15 amino acids, but only 9 were oxidized by the enzyme, suggesting that it presents some degree of specificity. ACL LAO has apoptosis-inducing activity in an HL-60 cell culture assay. After 24 h treatment with 25 micrograms/ml of ACL LAO, the typical DNA fragmentation pattern of apoptotic cells was observed on agarose gel electrophoresis. NMR analysis showed the presence of a flavin mononucleotide prosthetic group. To solve its 3-D structure, crystals of the purified protein were grown in 0.1 M Tris-HCl, pH 8.5, and 2 M (NH(4))(2)SO(4). Diffraction data collected to 3.5 A showed that the protein crystallized in the tetragonal system, with unit cell a = b = 103.22 A, c = 183.45 A. This is the first report of preliminary crystallization data for a snake venom L-amino acid oxidase.

Characterization and cytotoxicity of L-amino acid oxidase from the venom of king cobra (Ophiophagus hannah).

The aim of this project was to determine the cytotoxic components from the venom of king cobra, Ophiophagus hannah. Venom was purified by a combination of gel-filtration, ion-exchange and reversed-phase chromatographic steps. The biochemical properties of the cytotoxic component were consistent with those of L-amino acid oxidase. The molecular weight of the enzyme was estimated to be 150,000 by gel filtration and 70,000 under the denaturing conditions of SDS-PAGE, indicating a dimer. It has an isoelectric point of 4.5 and is a glycoprotein. The N-terminal sequence of L-amino acid oxidase from the king cobra venom was determined to be SVINLEESFQEPEYE. The cytotoxicity of L-amino acid oxidase was observed in stomach cancer, murine melanoma, fibrosarcoma, colorectal cancer and Chinese hamster ovary cell lines. Cytotoxicity resulted in the loss of ability in attachment and inhibition of cell proliferation. The cytotoxic protein decreased the level of cell proliferation by 74% according to [3H]thymidine uptake assay. The mechanism of enzyme action may be related to the inhibition of thymidine incorporation and an interaction with DNA.

Identification of the snake venom substance that induces apoptosis.

Hemorrhagic snake venom induces apoptosis of vascular endothelial cells [S. Araki, T. Ishida, T. Yamamoto, K. Kaji, and H. Hayashi (1993) Biochem. Biophys. Res. Comm. 190 , 148-153]. We have identified that a cytotoxic substance of Korean snake venom which is responsible for the apoptosis is L-amino acid oxidase (LAO). The purified enzyme is a homodimeric glycoprotein of 110,000 and is capable of generating H2O2 by catalyzing oxidation of L-amino acid. In the presence of the enzyme, cultured L1210 cell nuclei were splitted and showed the characteristic ladder-like pattern of DNA fragmentation. The enzyme binds directly to the cell surface, thereby increasing local concentration of H2O2. However, experimental evidence suggests that the LAO-induced apoptotic mechanism is distinguished from the one caused by exogenous H2O2.

[Effect of L-lysine-alpha-oxidase on the cell cycle kinetics of cultured Burkitt's lymphoma cells]. / Vliianie L-lizin-al'fa-oksidazy na kinetiku kletochnogo tsikla kul'tiviruemykh kletok limfomy Berkitta.

L-lysine-alpha-oxidase from Trichoderma sp. fungi inhibits the synthesis of DNA, RNA and protein in cultivated cells of the Burkitt lymphoma (strain P3HRj) in vitro, which results in the blocking of the cells' transfer from phase S to phase G2/M of the mitotic cycle.