Properties of catechol 1, 2 dioxygenase in the cell free extract and immobilized extract of Mycobacterium fortuitum

Polycyclic aromatic hydrocarbons (PAH) are carcinogenic compounds which contaminate water and soil, and the enzymes can be used for bioremediation of these environments. This study aimed to evaluate some environmental conditions that affect the production and activity of the catechol 1,2-dioxygenase (C12O) by Mycobacterium fortuitum in the cell free and immobilized extract in sodium alginate. The bacterium was grown in mineral medium and LB broth containing 250 mg L-1 of anthracene (PAH). The optimum conditions of pH (4.0-9.0), temperature (5-70 ºC), reaction time (10-90 min) and the effect of ions in the enzyme activity were determined. The Mycobacterium cultivated in LB shown higher growth and the C12O activity was two-fold higher to that in the mineral medium. To both extracts the highest enzyme activity was at pH 8.0, however, the immobilized extract promoted the increase in the C12O activity in a pH range between 4.0 and 8.5. The immobilized extract increased the enzymatic activity time and showed the highest C12O activity at 45 ºC, 20 ºC higher than the greatest temperature in the cell free extract. The enzyme activity in both extracts was stimulated by Fe3+, Hg2+ and Mn2+ and inhibited by NH4+ and Cu2+, but the immobilization protected the enzyme against the deleterious effects of K+ and Mg2+ in tested concentrations. The catechol 1,2-dioxygenase of Mycobacterium fortuitum in the immobilized extract has greater stability to the variations of pH, temperature and reaction time, and show higher activity in presence of ions, comparing to the cell free extract

Regulação cruzada entre peroxidases e indolamina 2.3 dioxigenase no controle da metabolização do triptofano / Peroxidases and indoleamine 2.3 dioxygenase crosstalk modulating tryptophan metabolization

Triptofano (TRP) é metabolizado por duas vias, a via serotonérgica e a via das quinureninas. Na via serotonérgica, TRP é metabolizado a serotonina (5-HT) e, em algumas células, à melatonina (MLT) que pode ser oxidada à N1-acetil-N2-formil-5- metoxiquinuramina (AFMK) e N1-acetil-5-metoxiquinuramina (AMK) por ação de peroxidases. Na via das quinureninas o TRP é diretamente metabolizado à N formilquinurenina (NFK) e em seguida a quinurenina (QUIN). A enzima indolamina 2, 3 dioxigenase (IDO) é uma das responsáveis por esta reação. Dada a importância da IDO na tolerância imunológica e pelo fato desta enzima ser induzível nos propusemos a avaliar a existência de uma regulação cruzada entre esta enzima e a via serotonérgica. Avaliando a interferência de AMK sobre a ação de IDO e a interferência de QUIN sobre a formação de AFMK por peroxidases, observamos uma possível interação entre as vias. AMK é um inibidor competitivo clássico de IDO e o Ki encontrado foi de 0,98 mM. QUIN é um inibidor acompetitivo linear simples da formação de AFMK e o Ki encontrado foi de 0,1 mM. A inibição da formação de AFMK também ocorre para a peroxidase humana (mieloperoxidase, MPO). Além de representarem uma regulação cruzada utilizada in vivo, as inibições encontradas podem ser relevantes para a proposta de novos inibidores de IDO e MPO na terapia imunomodulatória. Dado o nosso interesse pelas enzimas IDO e MPO, avaliamos ainda a localização intracelular destas enzimas em células de peritônio de camundongo, tanto residente como ativada com concanavalina A (Con A). O estímulo com Con A representa uma ativação de linfócitos T mediado por interferon gama (IFN-γ) e foi usado como modelo experimental para avaliar condições de localização em células ativadas. Por imunocitoquímica verificamos que IDO e MPO localizam-se próxima à membrana plasmática sendo que uma leve dispersão apenas de MPO foi observada em células ativadas com Con A. A localização intracelular das duas enzimas é no...

Tryptophan (TRP) is metabolized by two mains pathways, the serotoninergic pathway and the kynurenine pathway. In the serotoninergic pathway, TRP is metabolized to serotonin (5-HT) and, in some cells, to melatonin (MLT). The later can even be oxidized to acetyl-N1-N2-formyl-5-methoxykynuramine (AFMK) and N1-acetyl-5 -methoxykynuramine (AMK) by peroxidases. In the kynurenine pathway, TRP is metabolized to N-formylkynurenine (NFK) and to kynurenine (KYN). Indoleamine 2, 3 dioxygenase (IDO) is one of those responsible for this reaction. Since IDO is importat in immune tolerance and the fact that this enzyme is inducible by cytokines we proposed whether there is a cross regulation between this enzyme and the serotoninergic pathway. A possible interaction between MLT and TRP oxidation pathways was shown by the AMK influence on IDO activity and QUIN interference on AFMK formation by peroxidases. AMK was shown to be an IDO classical competitive inhibitor with a Ki of 0.98 mM. QUIN was a peroxidase (horseradish peroxidase, HRP) classical uncompetitive inhibitor and Ki was found to be 0,1 mM. AFMK formation inhibition was also found in human peroxidase (myeloperoxidase, MPO). Beyond the in vivo crosstalk, new IDO and MPO inhibitors in immunomodulatory therapy would be proposed by the compounds shown in this study. Given our interest in IDO and MPO, we also evaluated their intracellular localization in both resident and concanavalin A (Con A) activated mice peritoneum cells. Con A stimulation is a IFN-γ mediated T lymphocytes activation and was our experimental model to evaluate activated cells. In light microscopy we observed IDO and MPO localization near the membrane and MPO only had a dispersed localization in Con A activated cells. Cytoplasm, nucleus and vesicles were the intracellular localization of both enzymes. Interestingly, we found MPO in isolated cells and in cell clusters of two or more cells. MPO was founded on macrophages, B1 cells and cell clusters by...

Isolation and characterization of a novel strain of Stenotrophomonas maltophilia possessing various dioxygenases for monocyclic hydrocarbon degradation / Isolamento e caracterização de uma nova cepa de Stenotrophomonas maltophilia com várias dioxigenases para degradação de hidrocarbonetos monocíclicos

A Gram-negative bacterium, designated as strain KB2, was isolated from activated sludge and was found to utilize different aromatic substrates as sole carbon and energy source. On the basis of morphological and physiochemical characteristics and 16S rRNA gene sequence analysis, the isolated strain KB2 was identified as Stenotrophomonas maltophilia. Strain KB2 is from among different Stenotrophomonas maltophilia strains the first one described as exhibiting the activities of three types of dioxygenases depending on the structure of the inducer. The cells grown on benzoate and catechol showed mainly catechol 1,2- dioxygenase activity. The activity of 2,3-dioxygenase was detected after phenol induction. Protocatechuate 3,4-dioxygenase was found in crude cell extracts of this strain after incubation with 4-hydroxybenzoic acid, protocatechuic acid and vanillic acid. Because of broad spectrum of dioxygenases' types that Stenotrophomonas maltophilia KB2 can exhibit, this strain appears to be very powerful and useful tool in the biotreatment of wastewaters and in soil decontamination.

Uma bactéria Gram-negativa, denominada KB2, foi isolada de lodo ativado, verificando-se ser capaz de utilizar substratos aromáticos com única fonte de carbono e energia. Com base nas características morfológicas e físico-químicas, e na análise da sequencia do gene 16SrRNA, esta bactéria foi identificada como Stenotrophomonas maltophilia. Entre as diversas cepas de S. maltophilia já descritas, essa cepa é a primeira com atividade de três tipos de dioxigenases, dependendo da estrutura do indutor. As células cultivadas em benzoato e catecol apresentaram atividade de catecol 1,2-dioxigenase principalmente. A atividade de 2,3-dioxigenase foi detectada após indução com fenol. Após incubação com ácidos 4-hidrobenzoico, ácido protocatecuico evanílico, encontrou-se protocatecuato 3,4-dioxigenase no extrato celular. Devido ao amplo espectro de atividade das diferentes dioxigenases de S. maltophilia KB2, esta cepa parece ser uma ferramenta poderosa e útil para o biotratamento de efluentes e descontaminação do solo.