Changes in expression of TLR-4, TGF-ß, INF-γ, TNF-α in cultured T24/83 cells of invasive bladder cancer treated with cisplatin and/or polyphenolic adjuvant melanin.

BACKGROUND: Toll-like receptor 4 (TLR4) is known to be involved in carcinogenesis and cancer progression. Changes in TLR4 expression are associated with changes in the expression of key cellular cytokines (transforming growth factor-ß (TGF-ß), tumor necrosis factor-α (TNF-α), interferon-γ (IFN-γ)), which affect cancer progression and metastasis. AIM: To study changes in the expression of TLR4, TGF-ß, TNF-α, IFN-γ genes, the level of apoptosis and cell cycle distribution in human invasive urothelial carcinoma T24/83 cells under the treatment with polyphenolic adjuvant compound of fungal origin melanin, cytotoxic drug cisplatin, and combination of both. MATERIALS AND METHODS: T24/83 cells were incubated with cisplatin (0.05 mM), melanin (5 µg/ml), or their combination. The expression level of TLR-4, TGF-ß, INF-γ, TNF-α was evaluated by the real time polymerase chain reaction. The flow cytometry was used to study cell cycle distribution, proliferative activity and level of apoptosis. Morphological analysis of the Т24/83 cells was performed as well. RESULTS: Melanin, cisplatin, and their combination downregulate TLR4 expression (2.67; 1.28; and 2.73-fold decrease, respectively) and TNF-α expression (6.5; 1.4; and 1.7-fold decrease, respectively). Melanin did not affect TGF-ß expression while cisplatin caused 13-fold downregulation of TGF-ß. The combined use of cisplatin and melanin decreased TGF-ß expression by 6.5 times. The upregulation of IFN-γ by melanin, cisplatin, and their combination was demonstrated (4.3; 6.7; and 2-fold increase, respectively). All treatment modalities increased the level of apoptosis in T24/83 cells. Melanin treatment increased significantly the proportion of fibroblast-like cells in T24/83 culture with decreased cell adhesion to the substrate. CONCLUSIONS: Melanin, cisplatin, and combination of both agents affect significantly TLR4, TNF-α, TGF-ß, INF-γ expression, cell cycle distribution and morphology in T24/83 cells suggesting their transition to less aggressive phenotype.

Lipoxygenases and their metabolites in formation of plant stress tolerance.

The review focuses on the analysis of new information concerning molecular enzymology of lipoxygenases ­ proteins involved in lipid peroxidation and found in animals and plants. Modern concept of structural features, catalytic characteristics and functions of lipoxygenase family enzymes as well as products of their catalytic activity in plants have been discussed and summarized. Issues of enzyme localization in plant cells and tissues, evolution and distribution of lipoxygenases, involvement in production of signaling substances involved in formation of adaptation response to abiotic and biotic stress factors and in regulation of lipoxygenase signal system activity are highlighted. Participants of the elements signaling of LOX-pathway reception and transduction into genome are considered. Special attention is given to jasmonates, metabolites of the allene oxide synthase branch of the lipoxygenase cascade, because these metabolites have high biological activity, are ubiquitously present in all plant organisms, and are involved in regulation of vitally important processes. Data concerning lipoxygenase phylogeny, possible occurrence of a common predecessor for modern isoforms of the enzyme in pro- and eukaryote have been examined. Some results of our studies that open up possibilities of using the lipoxygenase catalytic activity characteristics as biological markers in plant stress tolerance researches are given.

[Thermoinactivation of potato 5-lipoxygenase and effect of phosphatidic acid on activation energy of denaturation].

The investigation aim was to establish the structural-functional relations of individual lipid metabolism components: enzymes--lipoxygenases and membrane phospholipids. Influence of phosphatidic acid (PA)--allosteric activator of potato tuber 5-lipoxygenase (5-LO)--on thermoinactivation thermodynamic parameters of enzyme was studied. It was established that PA changes essentially the 5-LO thermostability, namely activation energy Ea of enzyme denaturation increases several times in this phospholipid presence. Such changes can evidence that PA interaction with 5-LO leads to conformational changes of enzyme probably due to hydrophobic interactions. Obtained results give a possibility to interpret the action mechanism of PA as 5-LO allosteric activator, which can displace the substrate molecules in binding sites and increase the level of formation of specific products of linoleic acid oxygenation by 5-LO.

[Modeling of linoleyl hydroxamic acid influence on lipoxygenases in vitro].

5-Lipoxygenase (5-LO) (1.13.11.12) demonstrates its activity in membrane-associated state. A system in vitro with increasing quantity of mixed micelle of nonionic detergent Lubrol PX and substrate--linoleic acid (LA) was used for understanding of 5-LO catalytic activity mechanism, which depends on the membrane environment. Physical parameters of micelles with molar ratio LA-Lubrol PX = 0.3:1 and micelles with 5-LO inhibitor--linoleyl hydroxamic acid (LHA), LA and Lubrol PX (0.03:0.3:1) were characterized by gel-filtration method on Sephadex G-200. It was determined, that Stock's radii were 4.83-5.79 nm for micelles with total LA--50-2000 microM and average molecular mass--177 000-212 000 Da. The presence of 10 microM LHA has no influence on physical parameters of the system. Influence of LHA on kinetic parameters of LA oxidation reaction catalized by potato tubers 5-LO in characterized mixed micelle system was also studied. Substrate dependences curves of 5-LO LA oxidation steady-state rates under conditions of the mixed micelle with ratio LA-lubrol PX = 0.3:1, LHA-LA-Lubrol PX = 0.03:0.3:1 and LHA-LA-Lubrol PX = 0.12:0.3:1 were typical of the substrate inhibition. The presence of inhibitor had no effect on the number of additional substrate molecules--LA which contact with enzyme-substrate complex and decreased V(max) essentially. To predict further inhibitor transformation in the cell the influence of 13-hydroperoxy- and 13-hydroxy LHA on potato tubers 5-LO and porcine leucocyte 12-LO was investigated. It was established that LHA oxidized forms displayed as no less effective inhibitors of the analyzed enzymes; 13-hydroperoxy LHA efficiency increased by an order (IC50 was 0.7 microM) for 12-LO. The possibility of 5-LO to oxidize inhibitor LHA under 50 microM phosphatidic acid at pH 5.0 was demonstrated.

[Interaction between 5-lipoxygenase and allosteric effector--sodium dodecyl sulfate].

The role of allosteric effector--sodium dodecyl sulfate (SDS) in the lipoxygenase catalysis in micelle system has been studied. The effect of the stable hydrophobic bis-nitroxides, blocking the free radical transformation, on the oxidation of linoleic acid or linoleic alcohol by 5-lipoxygenase from potato tuber has been investigated. The inhibiting effect of nitroxide compounds on oxidation of linoleic acid or linoleic alcohol by 5-lipoxygenase depends on SDS concentration. The inhibition percentage is determined by the substrate nature and presence of allosteric effector. The presence of SDS did not lead to an appreciable change in the pKa values of ionogenic enzyme groups. The effect of SDS and micellar system on thermodynamic parameters for thermoinactivation of 5-lipoxygenase was studied. It was found that thermoinactivation rate constants and activation energy of enzyme thermoinactivation were increased in the presence of SDS. It is suggested that interaction of 5-lipoxygenase and allosteric effector--SDS intensifies the dissociation of radical intermediates from the active site of the enzyme. These findings are of physiological significance in the light of the lipoxygenase involvement in the membrane lipid peroxidation.

[Effect of phosphatidic acid on the reaction of linoleic acid oxidation by 5-lipooxygenase from potatoes].

Influence of anionogenic phospholipid of phosphatidic acid (PA) on oxidation of linoleic acid by 5-lipoxygenase (5-LO) from Solanum tuberosum was studied. The influence of PA was studied in micellar system which consisted of mixed micelles of linolenic acid (LK), Lubrol PX and different quantity of enzyme effector PA. The reaction was initiated by addition of 5-LO. It was established that 5-LO had two pHopt. in the presence of 50 microM phosphatidic acid: pH 5.0 and 6.9. In concentration of 50 microM PA was able to activate 5-LO 15 times at pH 5.0. The reaction maximum velocity (Vmax) coincided with Vmax of lipoxygenase reaction without the effector at pH 6.9 under such conditions. It was found that 30-50 microM phospholipid in the reaction mixture decreased the concentration of half saturation by the substrate by 43-67%. The enzyme demonstrated positive cooperation in respect of the substrate, the reaction is described by the Hill equation. Hill coefficient value (h) of the substrate was 3.34 +/- 0.22 (pH 6.9) and 5.61 +/- 0.88 (pH 5.0), that is with the change of pH to acidic region the number of substrate molecules increased and they could interact with the enzyme molecule. In case of substrate insufficiency the enzyme demonstrated positive cooperation of PA, it added from 4 to 3 effectors' molecules at pH 5.0, that is the phospholipid acted as the allosteric regulator of 5-LO. A comparative analysis of the influence of 4-hydroxy-TEMPO displayed, that the level of nonenzymatic processes in the case of physiological pH values was lower by 15-50% in the presence of PA in the range of 30-80 microM than without the effector.