DNA topoisomerase I from parasitic protozoa: a potential target for chemotherapy.

The growing occurrence of drug resistant strains of unicellular prokaryotic parasites, along with insecticide-resistant vectors, are the factors contributing to the increased prevalence of tropical diseases in underdeveloped and developing countries, where they are endemic. Malaria, cryptosporidiosis, African and American trypanosomiasis and leishmaniasis threaten human beings, both for the high mortality rates involved and the economic loss resulting from morbidity. Due to the fact that effective immunoprophylaxis is not available at present; preventive sanitary measures and pharmacological approaches are the only sources to control the undesirable effects of such diseases. Current anti-parasitic chemotherapy is expensive, has undesirable side effects or, in many patients, is only marginally effective. Under this point of view molecular biology techniques and drug discovery must walk together in order to find new targets for chemotherapy intervention. The identification of DNA topoisomerases as a promising drug target is based on the clinical success of camptothecin derivatives as anticancer agents. The recent detection of substantial differences between trypanosome and leishmania DNA topoisomerase IB with respect to their homologues in mammals has provided a new lead in the study of the structural determinants that can be effectively targeted. The present report is an up to date review of the new findings on type IB DNA topoisomerase in unicellular parasites and the role of these enzymes as targets for therapeutic agents.

Changes in glutathione-redox balance induced by hexachlorocyclohexane and lindane in CHO-K1 cells.

1. The basal cytotoxic effect of the organochlorine pesticides hexachlorocyclohexane and lindane on CHO-K1 cultures was assessed at fractions of their lethal doses as determined by the neutral red incorporation (NRI) assay (NRI(6.25), NRI(12.5) and NRI(25)). The sulphur-redox cycle enzymes glutathione peroxidase, glutathione reductase and glutathione S-transferase, and total and oxidized glutathione were evaluated at several points during the standard growth curve of the cultures. 2. After incubation with each compound for 24 h, both glutathione peroxidase and reductase showed a substantial increase at the lowest exposure doses (NRI(6.25))--more significantly for lindane than for 1,2,3,4,5,6-hexachlorocyclohexane (HCH)--and dropped at higher doses of both compounds. The reduced and oxidized glutathione content was greatly diminished at the lower exposures, whereas the total glutathione content was higher at NRI(12.5) values. 3. Changes in cell membrane integrity were assessed for a wide range of pesticide concentrations with the lactate dehydrogenase release assay and lipid peroxidation. Membrane leakage and peroxide production were significantly enhanced at concentrations of HCH 50 microg ml(-1), although this effect was not significant at lindane concentrations < 200 microg ml(-1). 4. Lipid peroxidation increased with exposure to HCH at concentrations as low as NRI(6.25), whereas in the case of lindane, this increase was only significant at doses of NRI(25) and above.

Alterations of the glutathione-redox balance induced by metals in CHO-K1 cells.

The effects of cadmium (Cd(2+)), mercury (Hg(2+)), lead (Pb(2+)), copper (Cu(2+)) and nickel (Ni(2+)) on the glutathione (GSH)-redox cycle were assessed in CHO-K1 by the neutral red uptake inhibition (NR) assay (NR(6.25), NR(12.5) and NR(25)). Mercury proved to be the most and lead the least toxic of the metals tested. The effects on GSH content and intracellular specific activities of enzymes involved in the GSH-redox balance were measured after a 24-h exposure. Total GSH content increased significantly in cultures exposed to the lowest metal concentration assayed (NR(6.25)), but fell to below control values when exposed to concentrations equivalent to NR(25). Oxidised glutathione content dropped significantly at NR(6.25), while somewhat higher values were obtained for cultures exposed to higher doses. Glutathione peroxidase (Gpx) activities were 1.2-, 1.5-, 1.6-, 2.0- and 2.5-fold higher than untreated controls for cadmium, copper, mercury, nickel and lead, respectively, at concentrations equivalent to NR(6.25). Gpx activity declined at metal concentrations equivalent to NR(12.5) and NR(25). Glutathione reductase activity remained almost unchanged except at low doses of mercury, nickel and lead. Glutathione-S-transferase activity decreased at rising metal concentrations. The results suggest that a homeostatic defence mechanism was activated when cells were exposed to doses equivalent to NR(6.25) while the ability of the cells to respond weakened as the dose increased. A close relationship was also observed between metal cytotoxicity, total GSH content and the dissociation energy of the sulphur-metal bonds. These facts confirm the involvement of antioxidant defence mechanisms in the toxic action of these ions.

Determinación de residuos de siete insecticidas organofosforados en frutas mediante cromatografía de gases con detector de nitrógenofósforo y confirmación por espectrometría de masas / Residue analysis of seven organophosphorous insecticides in fruit by GC/NPD and confirmation by mass spectrometry

Se ha estudiado la presencia de residuos de siete insecticidas organofosforados en peras y manzanas adquiridas en la provincia de León. Se ha utilizado un sistema de extracción para matrices acuosas y determinación analítica mediante cromatografía de gases (GC) y detección con un detector de nitrógeno-fósforo (NPD). Las muestras positivas se confirmaron mediante cromatografía de gases y espectrometría de masas (GC/MS). Los insecticidas analizados mediante una técnica de extracción de multiresiduos fueron: diclorvós, diazinón, metilparatión, metil-pirimifós, paratión, malatión y fentión. Se han analizado 54 muestras obtenidas en la cesta de la compra de la ciudad de León, 28 manzanas (13 de la variedad Reineta y 15 de la variedad Golden) y 26 peras (15 de la variedad Conferencia y 11 de la variedad Blanquilla), de las que aparecieron 6 (11 por ciento) unidades (1 manzana de la variedad Reineta, 3 peras de la variedad Conferencia y 2 peras de la variedad Blanquilla) contaminadas con diazinón. Ninguna de las muestras sobrepasó el límite máximo de residuos (LMR) establecido para este compuesto (0.5 ppm) por el RD 280/94 en productos vegetales. Los datos de consumo medio por habitante de Castilla y León de peras y manzanas nos han permitido conocer la ingesta diaria estimada (IDE) del diazinón (rango 0,004 0,045 µg/kg/día), que al compararlo con la ingesta diaria admisible (IDA) (2 µg/kg/día), permite estimar un margen de seguridad comprendido entre 44 y 500 (AU)

Cyclodiene organochlorine insecticide-induced alterations in the sulfur-redox cycle in CHO-K1 cells.

The effect of the cyclodiene organochlorine pesticides aldrin, dieldrin and endosulfan was assessed on CHO-K1 cultures at fractions of their lethal doses, determined by the neutral red (NRI) incorporation assay (NRI6.25, NRI12.5 and NRI25). Glutathione peroxidase, reductase and S-transferase, and total and oxidised glutathione were evaluated along the standard growth curve of the cultures. After a 24-h incubation with each insecticide, glutathione peroxidase incurred a large increase, while glutathione reductase and S-transferase activities were slightly higher than untreated controls. Unlike oxidised glutathione, the content of total glutathione declined significantly after exposure to cyclodiene insecticides. Changes in cell membrane integrity were assessed by the lactate dehydrogenase (LDH) release assay and lipid peroxidation for a wide range of pesticide concentrations. Membrane leakage and peroxide production were significantly enhanced at concentrations of aldrin and as low as 12.5 microg/ml, whereas dieldrin and endosulfan increased membrane fragility at much higher concentrations.

Efecto del Salbutamol a dosis dopantes en los depósitos grasos de ratas entrenadas en condiciones aeróbicas / Effect of aerobic exercise and salbutamol treatment on fatty depots in wistar rats

El objeto de este trabajo ha sido probar si la reducción en los depósitos de grasa en ratas tratadas simultáneamente con salbutamol y condiciones de entrenamienot físico era debida al ejercicio o al tratamiento con agonistas adrenérgicos. Las ratas fueron tratadas con salbutamol a dos dosis distintas: terapéutica (16mg/kf peso corporal, dos veces al día), y de dopaje (3 mg/kg de peso corporal, dos veces al día), y los animales fueron entrenados siguiendo un protocolo aeróbico durante el experimento (90 días). algunos animales fueron tratados con propanolol (10mg/kg peso corporal, dos veces al día, 30 minutos antes del tratamiento con salbutamol), un Beta-antagonista no específico. Los niveles de grasa perirrenal decayeron sustancialmente sin camios en el peso corporal. Esta reducción en los depósitos de grasa ocurrió tanto por el entrenamiento como por el tratamiento con salbutamol, pero no fue revertido cuando se administró propanolol. La reducción en los depósitos de grasa en ratas fue una consecuencia del ejercicio sin implicación del sistema adrenérgico. De la misma manera, se observó una disminución significativa de los niveles plasmáticos de ácidos grasos y triglicéridos sanguíneos como consecuencia de la administración del salbutamol a las dosis de dopaje, que no pudo ser revertida por propranolol (AU)

Alterations on polyamine content and glutathione metabolism induced by different concentrations of paraquat in CHO-K1 cells.

The effect of herbicide paraquat has been assessed on CHO-K1 cultures at different concentrations. Glutathione peroxidase, reductase and S-transferase, as well as total and oxidized glutathione, were evaluated along the standard growth curve of the cultures. Paraquat was then administered during mid-log phase at concentrations that produced a calculated lethality of 6.25%, 12.5% and 25%, using the lysosomal dye assay, neutral red. After 24hr of incubation with paraquat, glutathione peroxidase suffered a large dose-response increase, unlike glutathione reductase and S-transferase, the activities of which were lower than untreated controls. The profile of total glutathione content was similar to that found for glutathione peroxidase, increasing with the administered doses of the herbicide. Polyamine content has been also studied at the same concentrations of paraquat, showing that intracellular spermidine and spermine pools were negatively affected with paraquat in a dose-response manner, unlike putrescine, which maintained elevated pools at the three concentrations assayed.

Early alterations of polyamine metabolism induced after acute administration of clenbuterol in mouse heart.

An acute treatment of mice with clenbuterol, a beta-adrenergic agonist, produced a marked increase of polyamines levels in heart, particularly during the early phase of administration of the drug. A single dose of 1.5 mg/kg caused as much as a 10 fold induction in activity of ornithine decarboxylase (ODC) and 3 to 4 fold increase in levels of putrescine, spermidine and spermine in mouse heart. Maximum changes were observed 3 to 4 hours post-administration of clenbuterol. This treatment did not produce any change in S-adenosylmethionine decarboxylase activity. The induction of cardiac ODC by clenbuterol was also dose dependent with a peak at about 5 micromol/kg. Co-administration of difluoromethylornithine, an irreversible inhibitor of ODC, or propranolol, a nonspecific beta-antagonist, with clenbuterol completely prevented the induction of ODC activity as well as the increase in polyamine levels in heart. However, pretreatment with alprenolol or metoprolol, the specific beta1 and beta2-antagonists, respectively, produced only partial prevention. The cardiac ODC from controls as well as clenbuterol treated mice exhibited similar affinity (Km) for its substrate, ornithine, while maximum enzyme activity (Vmax) was about 14 fold higher in clenbuterol treated mouse heart than in the control. Clenbuterol produced no change in the level of specific ODC mRNA or the protein, but the enzyme from the drug-treated mouse heart was considerably more stable than the control. Pretreatment of mice with either cycloheximide or actinomycin D followed by administration of clenbuterol could not prevent the induction in ODC activity suggesting that de novo biosynthesis of the enzyme protein or ODC mRNA was not responsible for induction of ODC activity. Post-translational changes in ODC may be responsible for an early increase of ODC activity due to clenbuterol treatment.

S-adenosylmethionine synthesis in Leishmania infantum promastigotes.

Methionine adenosyltransferase (MAT), S -adenosylmethionine (AdoMet), and S -adenosylhomocysteine (AdoHcy), have been analysed at different time-points during the growth curve of Leishmania infantum. MAT activity and AdoMet content peaked in the lag and early log phases, whereas higher levels of AdoHcy were found in stationary phase cells. MAT activity of cell extracts displayed hyperbolic kinetics for both its substrates, l -methionine and ATP, with km values of 35 microm and 5 m m, respectively. MAT has an absolute requirement for divalent cations, and is dependent on sulfydryl protective agents. Unlike other sources, L. infantum MAT activity seems to be transcriptionally regulated, with an accumulation of MAT-mRNA during rapid growth periods of promastigotes.

Interaction of cationic diamidines with Leishmania infantum DNA.

The interaction of a series of potent leishmanicidal aromatic diamidines resembling pentamidine, was studied with Leishmania infantum DNA and polynucleotides. The diamidines viz., CGP040215A, CGP033829A and CGP039937A, interacted with leishmania DNA as well as with the polynucleotides poly(dA)-poly(dT), poly(dA-dT) and poly(dG-dC). The thermodynamic analysis to determine the association constants and the binding enthalpy pointed toward binding of the diamidines at AT regions of the DNA. The results also indicate that the diamidines bind at the outside of the DNA double helix, probably to the minor groove regions, with hydrogen bonds connecting the amide nitrogen of the diamidine to carbonyl oxygen atoms of thymidine or adenosine bases. However, CGP040215A and CGP033829A, the bisaryl diamidines, showed higher affinity than CGP039937A, the monoaryl diamidine. The spectrophotometric analysis of the interaction of these diamidines to test their effects on the melting temperature of leishmanial DNA suggests non-intercalating binding. The diamidines also showed potent inhibition of DNA polymerase activity of L. infantum extracts in vitro.

The pharmacology of leishmaniasis.

The development of new strategies on chemotherapy of parasitic protozoan diseases is one of the most exciting research fields of recent years. World Health Organization (WHO) reports have recognized that the physiology and biochemistry of protozoan parasites and the host-parasite relation are the main targets for the design of new drugs that can be used in the future against these diseases.

Structural determinants of putrescine uptake inhibition produced by cationic diamidines in the model of trypanosomatid Crithidia fasciculata.

The effect of a heterologous series of cationic diamidines has been tested on cell growth and polyamine uptake on the model of insect Trypanosomatid Crithidia fasciculata. The maximum inhibitory effect on both parameters was found for pentamidine and dibromopropamidine, which exhibit a longer distance between amino and imino substituents. A minimum inhibitory effect was found with amicarbalide. A good relationship was obtained when the distance between amino moieties was plotted versus the inhibitory effect on putrescine uptake, suggesting a role of this structural property on polyamine transport in Crithidia fasciculata. In addition, a similar correlation was obtained for another Trypanosomatid parasite, Leishmania infantum.

Fluorinated analogues of L-ornithine are powerful inhibitors of ornithine decarboxylase and cell growth of Leishmania infantum promastigotes.

Fluorinated analogues of L-ornithine have been tested on growth and ornithine decarboxylase arising from L.infantum cytosolic extracts. EC50 values estimated from dose/response curves were 38 microM, 2.62 microM and 4.64 microM for alpha-DFMO, delta-MFMO and delta-MFMOme respectively. Also the inhibition produced by all three compounds was effectively reverted by exogenous putrescine, pointing towards the inhibition of L.infantum ODC. ODC from logarithmic phase cytosolic extracts was physicochemically and kinetically characterized, showing a long half-life (more than 24 h) and a km value for L-ornithine of 98 microM. Finally, the inhibitory effect of fluorinated analogues of L-ornithine was analysed on L.infantum ODC showing a time-dependent irreversible behavior, with Ki values estimated on 125 microM, T1/2 3.5 min for alpha-DFMO; 13.3 microM, T1/2 1.8 min for delta-MFMO and 4.3 microM, T1/2 4 min for delta-MFMOme.