Mecanismos moleculares da ação tóxica pró-oxidante de 1,4-diamino-2-butanona, um análogo de putrescina, sobre células de mamíferos e Trypanosoma cruzi / The Molecular mechanisms of pro-oxidant activity of 1,4-diamino-2-butanone, a putrescine analogue, to mammalian cells and Trypanosoma cruzi

Compostos α-aminocarbonilícos como ácido 5-aminolevulínico (ALA) e aminoacetona (AA) apresentam um grande potencial pró-oxidante, pois sofrem reações de enolização e subseqüente oxidação aeróbica, com a formação de espécies radicalares de oxigênio, íons NH4+ e α-oxoaldeídos potencialmente citotóxicos. A α-aminocetona 1,4-diamino-2-butanona (DAB), um análogo da putrescina, é um agente microbicida de vários parasitas incluindo Trypanosoma cruzi. Acredita-se que o mecanismo de morte desencadeado por DAB nos parasitas seja por meio da inibição competitiva da ornitina descarboxilase (ODC), importante enzima do metabolismo de poliaminas, muito embora tenha sido observado de igual forma danos oxidativos nestes parasitas quando tratados com DAB. O objetivo deste trabalho é esclarecer o mecanismo de oxidação química de DAB e sua ação pró-oxidante à cultura de células de mamíferos (LLC-MK2 e RKO), assim como sua atividade microbicida contra tripomastigotas de Trypanosoma cruzi. Demonstramos aqui que DAB, quimicamente similar ao ALA e AA, sofre reação de oxidação catalisada por íons fosfato, e por íons de metais de transição como Fe(II) e Cu(II), resultando na formação de radicais de oxigênio, H2O2, NH4+, 2-oxo-4-aminobutanal como produto principal da oxidação de DAB e de compostos ciclicos de caracter pirrólico. Danos oxidativos observados em ferritina, apotransferrina e liposomos de cardiolipina e fosfatidilcolina (20:80) contribuem para a nossa hipótese de ação pró-oxidante de DAB. O tratamento de células de mamíferos das linhagens LLC-MK2 (IC50 1,5 mM, tratamento de 24 h) e RKO (IC50 0,3 mM, tratamento de 24 h) com DAB levou à alteração do balanço redox celular, à ativação de resposta antioxidante e ao desencadeamento de morte celular via apoptose e parada de ciclo celular. Em culturas de tripomastigotas de T. cruzi o tratamento com DAB culminou na redução da motilitidade e viabilidade destes parasitas (IC50 0,2 mM, tratamento de 4 h), assim como depleção do...

α-Aminocarbonyl componds such as 5-aminolevunilic acid (ALA) and aminoacetone (AA) have been shown to exhibit pro-oxidant properties. These compounds undergo phosphate-catalyzed enolization in physiological pH and subsequent aerobic oxidation, yielding reactive oxygen species, NH4+ ions and an α-oxoaldehyde highly cytotoxic. The α-aminoketone 1,4-diamino-2-butanone (DAB) is a putrescine analogue and a microbicidal agent to various parasites including Trypanosoma cruzi. The mechanism of DAB toxicity to these parasites is attributed to DAB competitive inhibition of ornithine decarboxylase (ODC), a key enzyme on polyamine biosynthesis, although it has also been shown DAB isto implicated in oxidative damage to these parasites. Our aim is to clarify the mechanism of DAB aerobic oxidation and of its putative pro-oxidant activity to mammalian cell cultures (LLC-MK2 and RKO cell linages) and to Trypanosoma cruzi trypomastigotes. Here we show that, similar to ALA and AA, DAB undergoes aerobic oxidation in presence of phosphate ions and of transition metal ions such as Fe(II) and Cu(II), yielding oxygen radicals, H2O2, NH4+ and 2-oxo-4-aminobutanal accompanied by its condensation cyclic products displaying pyrrolic characteristics. Oxidative alterations to ferritin, apotransferrin and liposomes of cardiolipin and phosphatidylcholine (20:80) were observed under DAB treatment strongly supporting our hypothesis of DAB pro-oxidative activity. DAB treatment of mammalian cultured cells LLC-MK2 (IC50 1.5 mM, 24 h incubation) and RKO (IC50 0.3 mM, 24 h incubation) resulted in redox imbalance, induction of antioxidant response, activation of apoptosis pathway and cell cycle arrest. DAB is shown here to trigger Trypanosoma cruzi trypomastigotes decreased parasite motility and viability (IC50 0.2 mM, 4 h incubation), as well as redox thiol imbalance parallel to increase TcSOD activity. In addition, DAB efficiently hampered host cell (LLC-MK2) invasion by trypomastigotes...

Toxicity of chlorhexidine on odontoblast-like cells

Chlorhexidine gluconate (CHX) is recommended for a number of clinical procedures and it has been pointed out as a potential cavity cleanser to be applied before adhesive restoration of dental cavities. OBJECTIVE: As CHX may diffuse through the dentinal tubules to reach a monolayer of odontoblasts that underlies the dentin substrate, this study evaluated the cytotoxic effects of different concentrations of CHX on cultured odontoblast-like cells (MDPC-23). MATERIAL AND METHODS: Cells were cultured and exposed to CHX solutions at concentrations of 0.06 percent, 0.12 percent, 0.2 percent, 1 percent and 2 percent. Pure culture medium (á-MEM) and 3 percent hydrogen peroxide were used as negative and positive control, respectively. After exposing the cultured cells to the controls and CHX solutions for 60 s, 2 h or 60 s with a 24-h recovery period, cell metabolism (MTT assay) and total protein concentration were evaluated. Cell morphology was assessed under scanning electron microscopy. CHX had a dose-dependent toxic effect on the MDPC-23 cells. RESULTS: Statistically significant difference was observed when the cells were exposed to CHX in all periods (p<0.05). Significant difference was also determined for all CHX concentrations (p<0.05). The 60-s exposure time was the least cytotoxic (p<0.05), while exposure to CHX for 60 s with a 24-h recovery period was the most toxic to the cells (p<0.05). CONCLUSION: Regardless of the exposure time, all CHX concentrations had a high direct cytotoxic effect to cultured MDPC-23 cells.

Indirect cytotoxicity of a 35 percent hydrogen peroxide bleaching gel on cultured odontoblast-like cells

The aim of this study was to evaluate the trans-enamel and trans-dentinal effects of a 35 percent hydrogen peroxide (H2O2) bleaching gel on odontoblast-like cells. Enamel/dentin discs obtained from bovine incisors were mounted in artificial pulp chambers (APCs). Three groups were formed: G1- 35 percent H2O2; G2- 35 percent H2O2 + halogen light application; G3- control. The treatments were repeated 5 times and the APCs were incubated for 12 h. Then, the extract was collected and applied for 24 h on the cells. Cell metabolism, total protein dosage and cell morphology were evaluated. Cell metabolism decreased by 62.09 percent and 61.83 percent in G1 and G2, respectively. The depression of cell metabolism was statistically significant when G1 and G2 were compared to G3. Total protein dosage decreased by 93.13 percent and 91.80 percent in G1 and G2, respectively. The cells in G1 and G2 exhibited significant morphological alterations after contact with the extracts. Regardless of halogen light application, the extracts caused significantly more intense cytopathic effects compared to the control group. After 5 consecutive applications of a 35 percent H2O2 bleaching agent, either catalyzed or not by halogen light, products of gel degradation were capable to diffuse through enamel and dentin causing toxic effects to the cells.

O objetivo deste estudo foi avaliar os efeitos citotóxicos de um agente clareador com 35 por cento de peróxido de hidrogênio (H2O2) sobre células da linhagem odontoblástica. Foram confeccionados discos de esmalte/dentina obtidos de incisivos bovinos, os quais foram posicionados em câmaras pulpares artificiais (CPAs). Três grupos foram formados: G1: gel clareador; G2: gel clareador + luz halógena e G3: controle. Após 5 aplicações consecutivas do gel clareador sobre o esmalte, os extratos foram obtidos e aplicados por 24 h sobre as células. Foram realizadas avaliações do metabolismo celular, morfologia das células e expressão total de proteína. O metabolismo celular para G1 e G2 reduziu em 62,09 por cento e 61,83 por cento, respectivamente. A redução do metabolismo celular foi estatisticamente significante quando se comparou G1 e G2 com G3. A expressão de proteína total reduziu em 93,13 por cento e 91,80 por cento para G1 e G2, respectivamente. As células em G1 e G2 apresentaram importantes alterações morfológicas após contato com os extratos. Foi possível concluir que independente da catalização ou não do gel clareador por luz halógena, os componentes que se difundiram através dos tecidos duros do dente após sua quinta aplicação sobre o esmalte, causaram intensos efeitos citotóxicos para as células.

Evaluation of the nitric oxide activity against Blastocystis hominis in vitro and in vivo

The effect of exogenous nitric oxide [NO] on growth, viability and ultra-structural of B. hominis was assessed in vitro by sodium nitrite [NaNO[2]] in 0.6 mM, 0.8 mM and 1 mM concentrations. The viability of B. hominis was identified using neutral red stain. The role of NO as an endogenous oxidant was assessed by identifying its level in cecum tissue, ileum tissue, blood and stool elutes of mice infected with B. hominis symptomatic human isolates using reactive nitrogen assay compared to control. In vitro study revealed that NaNO[2] inhibited the growth and decreased viability of B. hominis with minimal lethal concentration dose 1 mM on the 4[th] day while, minimal effects were detected with 0.6 and 0.8 mM. Transmission electron microscopy study proved that apoptotic-like features were observed in growing axenic culture of B. hominis upon exposure to NaNO[2]. These changes were not only found on the vacuolar [central body] form but also they were detected on granular, multi-vacuolar and cyst forms. In vivo study proved that high levels of NO were found in infected mice compared to low changes in control group. The high levels were in cecum tissue particularly. The mean levels of NO among infected mice were 211.8 +/- 20.7 micro M in cecum, 90.4 +/- 11.6 micro M in ileum, 60.1 +/- 4.7 micro M in blood and 63.6 +/- 7.3 micro M in stool elutes while, the mean levels of NO in control mice were 70.2 +/- 3.1 in cecum, 67.8 +/- 4.7 micro M in ileum, 30.9 +/- 4.2 micro M in blood and 28.1 +/- 2.9 micro M in stool elutes. The differences were statistically highly significant. NO-donor drugs proved useful in treatment and increase the host resistance to B. hominis

Study of DNA damage induced by dental bleaching agents in vitro

Clareamento dental é um procedimento simples e conservador para restaurar esteticamente a cor de dentes vitais e não-vitais. Entretanto, alguns estudos têm demonstrado o risco de dano tecidual a partir do contato desses agentes com a mucosa bucal. Neste presente estudo, o potencial genotóxico associado à exposição aos agentes clareadores dentais foi avaliado pelo teste de células individualizadas em gel (teste do cometa) in vitro. Células de ovário de hamster chinês (CHO) in vitro foram expostas a seis agentes clareadores dentais comercialmente disponíveis (Clarigel Gold – Dentsply; Whitespeed – Discus Dental; Nite White – Discus Dental; Magic Bleaching – Vigodent; Whiteness HP – FGM e Lase Peroxide – DMC). Os resultados mostraram que todos os agentes clareadores testados contribuíram para os danos no DNA, como demonstrado pela média do momento da cauda, sendo o efeito mais forte observado na mais alta dose de peróxido de hidrogênio (Whiteness HP e Lase Peroxide, na concentração de 35%). Por outro lado, Magic Bleaching (Vigodent) induziu o menor nível de quebras no DNA. Os controles negativo e positivo apresentaram ausência e presença de danos no DNA, respectivamente. Em suma, esses resultados sugerem que os agentes clareadores dentais podem ser um fator que aumenta o nível de danos no DNA. Uma concentração de peróxido de hidrogênio mais elevada produziu atividades nocivas mais severas no genoma como detectado pelo teste do cometa.

Antimutagenic and antioxidant/prooxidant activity of quercetin.

The present study has been performed to evaluate the antimutagenic activity of quercetin, ascorbic acid and their combination against an oxidative mutagen. An effort was also made to correlate this activity to the in vitro antioxidant activity of these agents. Antimutagenicity testing was done in Ames Salmonella Assay system using Salmonella typhimurium TA102 against t-butylhydroperoxide as an oxidative mutagen. In vitro antioxidant scavenging activity was tested for DPPH free radical, superoxide anion, hydrogen peroxide and hydroxyl radical in their specific test systems. Quercetin (0.5-8 nmole/plate) and ascorbic acid (0.1-100 micromole/plate) showed significant effect. Quercetin (4 and 8 nmole/plate) when combined with ascorbic acid (500 nmole/plate) showed an increase in the antimutagenic activity. In vitro antioxidant activity of quercetin was better than ascorbic acid in all the test systems used. The study indicated that the antimutagenic activity of quercetin was not solely accountable by its antioxidant nature. However, in vitro free radical scavenging activity of quercetin correlated well with the antimutagenic activity.

Free radical scavenging potential of Picrorhiza kurrooa Royle ex Benth.

For assessing free radical scavenging potential of P. kurrooa, the antioxidant activity of P. kurrooa extract was studied by lipid peroxidation assay using rat liver homogenate. The extract (1 mg/ml) showed marked protection (up to 66.68%) against peroxidation of liver phospholipids. Besides, reduced glutathione showed very encouraging activity. The extract also exhibited significant scavenging activity. Thus augmenting the wide use of plant in the indigenous system of medicine, which may partly be due to antioxidant and free radical scavening activity of the extract.

Induction of interleukin-6 by coal containing bioavailable iron is through both hydroxyl radical and ferryl species.

Coal mining causes health problems, such as pneumoconiosis. We have previously shown that prevalence of pneumoconiosis in workers from various coalmine regions positively correlates with levels of bioavailable iron (BAI) in the coals from that region. In the present study, the nature of reactive oxygen species formed by BAI in the coals and its mechanisms of the induction of biological responses were investigated. Human lung epithelial cell line, A549 cells, were used to examine the induction of interleukin-6 (IL-6), a pro-inflammatory cytokine, which is known to play a crucial role in the development of pneumoconiosis. We found that levels of IL-6 protein as well as its mRNA were significantly increased in the cells treated for 24 h with 20 microg/cm2 of the BAI-containing Pennsylvania (PA) coal; for example we observed 6.7-fold increase in IL-6 protein. Levels of IL-6 protein in cells treated with the Utah (UT) coal containing low-BAI were only 1.9-fold of the control levels. The enhancing effect on the IL-6 by the PA coal was similar to that caused by hydrogen peroxide. Superoxide dismutase (SOD), catalase (CAT), and N-acetyl-L-cysteine (NAC) all had inhibitory effects on the PA coal-induced IL-6 formation. However, CAT had the least protective effect as compared to SOD and NAC. Our results indicate that BAI in the PA coal may induce IL-6 through both ferryl species (via iron autoxidation) and hydroxyl radicals (via the Fenton/Haber Weiss reactions).

Protective effect of N-acetylcysteine in isoniazid induced hepatic injury in growing rats.

Status of oxidative/antioxidative profile was the mechanistic approach to inumerate the nature of protection by N-acetylcysteine (NAC) in isoniazid (INH) exposed experimental animals. Analysis of lipid peroxidation, thiol levels, cytochrome P450, superoxide dismutase (SOD), catalase, glutathione peroxidase, reductase and transferase were estimated in liver along with the body and liver weight of animals and histological observations. Isoniazid exposure to animals resulted in no change in body and liver weights. Thiols, lipid peroxidation, catalase, SOD glutathione peroxidase, reductase, transferase and cytochrome P450 levels were altered with INH exposure. Supplementation of NAC with INH protected the animals against hepatotoxic reactions by minimizing the free radical induced tissue injury and overall maintenance of the endogenous scavengers of free radicals.