26 research outputs found
Sulphurous Mineral Waters: New Applications for Health
Sulphurous mineral waters have been traditionally used in medical hydrology as treatment for skin, respiratory, and musculoskeletal disorders. However, driven by recent intense research efforts, topical treatments are starting to show benefits for pulmonary hypertension, arterial hypertension, atherosclerosis, ischemia-reperfusion injury, heart failure, peptic ulcer, and acute and chronic inflammatory diseases. The beneficial effects of sulphurous mineral waters, sulphurous mud, or peloids made from sulphurous mineral water have been attributed to the presence of sulphur mainly in the form of hydrogen sulphide. This form is largely available in conditions of low pH when oxygen concentrations are also low. In the organism, small amounts of hydrogen sulphide are produced by some cells where they have numerous biological signalling functions. While high levels of hydrogen sulphide are extremely toxic, enzymes in the body are capable of detoxifying it by oxidation to harmless sulphate. Hence, low levels of hydrogen sulphide may be tolerated indefinitely. In this paper, we review the chemistry and actions of hydrogen sulphide in sulphurous mineral waters and its natural role in body physiology. This is followed by an update of available data on the impacts of exogenous hydrogen sulphide on the skin and internal cells and organs including new therapeutic possibilities of sulphurous mineral waters and their peloids
Sulphurous Mineral Waters: New Applications for Health
Sulphurous mineral waters have been traditionally used in medical hydrology as treatment for skin, respiratory, and musculoskeletal disorders. However, driven by recent intense research efforts, topical treatments are starting to show benefits for pulmonary hypertension, arterial hypertension, atherosclerosis, ischemia-reperfusion injury, heart failure, peptic ulcer, and acute and chronic inflammatory diseases. The beneficial effects of sulphurous mineral waters, sulphurous mud, or peloids made from sulphurous mineral water have been attributed to the presence of sulphur mainly in the form of hydrogen sulphide. This form is largely available in conditions of low pH when oxygen concentrations are also low. In the organism, small amounts of hydrogen sulphide are produced by some cells where they have numerous biological signalling functions. While high levels of hydrogen sulphide are extremely toxic, enzymes in the body are capable of detoxifying it by oxidation to harmless sulphate. Hence, low levels of hydrogen sulphide may be tolerated indefinitely. In this paper, we review the chemistry and actions of hydrogen sulphide in sulphurous mineral waters and its natural role in body physiology. This is followed by an update of available data on the impacts of exogenous hydrogen sulphide on the skin and internal cells and organs including new therapeutic possibilities of sulphurous mineral waters and their peloids
DmeRF system is required for nickel and cobalt resistance in Rhizobium leguminosarum bv. viciae.
A member of the Cation Diffusion Facilitator (CDF) family with high sequence similarity to DmeF (Divalent metal efflux) from Cupridavirus metallidurans was identified in Rhizobium leguminosarum bv. viciae UPM1137. The R. leguminosarum dmeF mutant strain was highly sensitive to Co2+ and moderately sensitive to Ni2+, but its tolerance to other metals such as Zn2+, Cu2+ or Mn2+ was unaffected. An open reading frame located upstream of R. leguminosarum dmeF, designated dmeR, encodes a protein homologous to the nickel and cobalt regulator RcnR from E.coli. Expression of the dmeRF operon was induced by nickel and cobalt ions in free-living cells, likely by alleviating DmeR-mediated transcriptional repression of the operon
Identificaci贸n y caracterizaci贸n funcional de sistemas g茅nicos implicados en la homeostasis de n铆quel en Rhizobium leguminosarum bv. viciae
La homeostasis de metales como n铆quel, cobalto, cobre o zinc es un proceso delicado en procariotas. Estos metales de transici贸n son, por un lado imprescindibles para el mantenimiento del metabolismo celular, pero por otro muy t贸xicos a elevadas concentraciones. Por este motivo, los microorganismos han desarrollado mecanismos para regular su concentraci贸n intracelular, tales como bombas de flujo de metales, secuestradores intra y extracelulares o enzimas detoxificadoras
Identificaci贸n y an谩lisis funcional de genes implicados en la homeostasis de n铆quel en la bacteria endosimbi贸tica de leguminosas Rhizobium leguminosarum
La asociaci贸n Rhizobium-leguminosa constituye una interacci贸n planta-microorganismo particularmente beneficiosa a nivel medioambiental debido a su capacidad promotora del crecimiento vegetal en condiciones de deficiencia de nitr贸geno. Se ha demostrado que una excesiva concentraci贸n de metales pesados en el suelo afecta negativamente la competitividad bacteriana y al desarrollo de interacciones diazotr贸ficas eficientes (Chaudri et al., 2000; Pereira et al., 2006). Por otro lado, el suministro de metales como Fe, Mo, Ni o Cu es fundamental para la bios铆ntesis de enzimas bacterianas relacionadas con el proceso de fijaci贸n de nitr贸geno que ocurre en el interior de los n贸dulos de las leguminosas (Moreau et al., 1995). Con objeto de identificar sistemas g茅nicos implicados en la homeostasis de n铆quel en bacterias endosimbi贸ticas, se ha llevado a cabo una mutag茅nesis mediante inserci贸n aleatoria de un minitranspos贸n derivado de Tn5 en Rhizobium leguminosarum bv. viciae UPM1137, una cepa capaz de resistir elevadas concentraciones de n铆quel y cobalto. Como resultado de esta mutag茅nesis se han obtenido 14 mutantes incapaces de crecer en medios suplementados con NiCl2. La localizaci贸n de la inserci贸n en estos mutantes muestra que una elevada proporci贸n de los genes afectados codifican prote铆nas de membrana o prote铆nas secretadas. En paralelo, se ha obtenido la secuencia del genoma de la cepa UPM1137, lo que permite realizar estudios in silico comparando los genomas disponibles de varias cepas de R. leguminosarum bv. viciae, que presentan una menor sensibilidad a metales. El an谩lisis bioinform谩tico de los genomas secuenciados y la caracterizaci贸n fenot铆pica de los mutantes obtenidos permitir谩 identificar potenciales sistemas de resistencia y su contribuci贸n a la homeostasis de metales
Functional characterization of Rhizobium leguminosarum bv. viciae DmeRF, a cation diffusion facilitator system involved in nickel and cobalt resistance
In prokaryotes, nickel is an essential element participating in the structure of enzymes involved in multiple cellular processes. Nickel transport is a challenge
for microorganisms since, although essential, high levels of this metal inside the cell are toxic. For this reason, bacteria have developed high-affinity nickel transporters as well as nickel-specific detoxification systems. Ultramafic soils, and soils contaminated with heavy metals are excellent sources of nickel resistant bacteria. Molecular analysis of strains isolated in the habitats has
revealed novel genetic systems involved in adaptation to such hostile conditions
Identification and functional characterization of Rhizobium leguminosarum bv. viciae genetic systems involved in nickel homeostasis.
A collection of Rhizobium leguminosarum bv. viciae strains isolated from ultramafic and contaminated soils in Italy and Germany, respectively, was analyzed for resistance to nickel and cobalt ions. These assays led to the identification of strain UPM1137, which is able to grow at high concentrations of nickel and cobalt. In order to identify genetic systems involved in the homeostasis to these metals, a random mutagenesis was carried out in UPM1137 by inserting a Tn5-derivative minitransposon. As a result 4313 transconjugants were obtained, being 39 of them (0.90%) unable to grow at 1.5 mM NiCl2. The identification of the transposon insertion site in these mutants showed that the disrupted genes encode proteins belonging to different functional categories, where the secreted and membrane proteins were the most numerous. The analysis of heavy metal resistance and phenotypes in symbiotic and free 鈥搇iving cells will define the contribution of these genes to metal homeostasis
Identification and analysis of a nickel-inducible cation diffusion facilitator-NiCoT combined system in Rhizobium leguminosarum bv. viciae
Nickel, like other transition metals, can be toxic to cells even at moderate concentration (low microM range) by displacing essential metals from their native binding sites or by generating reactive oxygen species that cause oxidative DNA damage. For this reason, cells have evolved mechanisms to deal with excess nickel. Efflux systems include members of the Resistance-Nodulation-cell Division (RND) protein family, P-type ATPases, cation diffusion
facilitators (CDF) and other resistance factors. Nickel-specific exporters have been characterized in Cupravidus metallidurans, Helicobacter pylori, Achromobacter xylosoxidans, Serratia marcenses and Escherichia coli
Aislamiento y caracterizaci贸n de bacterias endosimbi贸ticas procedentes de suelos contaminados por cobre en Chile
El uso intensivo de compuestos de cobre como herbicidas y fungicidas provoca la contaminaci贸n de suelos de uso agr铆cola debido a la acumulaci贸n de este metal en las capas m谩s superficiales del suelo. Se sabe que la presencia de cobre y otros metales pesados afecta negativamente a las interacciones simbi贸ticas que se establecen entre bacterias diazotr贸ficas de los g茅neros Rhizobium, Sinorhizobium y Bradyrhizobium y leguminosas de inter茅s agr铆cola (Laguerre et al., 2006). El objetivo de este trabajo es estudiar la diversidad de cepas endosimbi贸ticas de leguminosas en suelos agr铆colas chilenos que presentan un elevado contenido en cobre como resultado de la contaminaci贸n con residuos de extracciones mineras. Adem谩s, se pretende caracterizar el nivel de resistencia a cobre en las cepas aisladas con objeto de identificar aquellas altamente eficientes que puedan ser utilizadas como inoculantes microbianos. Para ello, se han prospectado 9 suelos agr铆colas de las regiones III, V y VI de Chile con contenidos muy variables de metales. Utilizando estos suelos como in贸culos de plantas trampa de leguminosas se ha obtenido una colecci贸n de 362 cepas aisladas de n贸dulos de guisante (Pisum sativum), jud铆a (Phaseolus vulgaris) y alfalfa (Medicago sativa). Los an谩lisis filogen茅ticos y los ensayos de resistencia a cobre realizados han permitido caracterizar y seleccionar aquellas cepas con mayores niveles de resistencia a este metal. Los resultados demuestran que los suelos altamente contaminados por cobre poseen una menor diversidad de bacterias endosimbi贸ticas; las cepas m谩s resistentes han sido aisladas de los suelos con niveles de contaminaci贸n intermedia. Los an谩lisis fenot铆picos y moleculares realizados sobre las cepas m谩s resistentes han demostrado la existencia de sistemas de resistencia a cobre inducibles por este metal y potencialmente implicados en su homeostasis
Isolation and characterization of endosymbiotic bacteria from copper contaminated soils in Chile
Legume endosymbiotic bacteria indigenous of copper (Cu)-contaminated soils from Chile have been isolated using pea (Pisum sativum), bean (Phaseolus vulgaris) and alfalfa (Medicago sativa) as trap host plants. Highly contaminated soils only produced nodules in certain legume hosts, whereas nodulation was observed in the three legume hosts when inoculated with soils containing a low Cu concentration. A collection of 362 strains was isolated, and their levels of Cu resistance were tested in media supplemented with increasing metal concentrations and in disk diffusion assays. By these two approaches, 84 strains displaying levels of Cu resistance higher than those exhibited by the corresponding reference strains were selected. The most resistant strains isolated from alfalfa and bean nodules grew normally at 3 mM and 2.5 mM CuSO4 and were obtained from two different highly contaminated soils. Strains nodulating pea plants showed similar levels of resistance to Cu (2-2.5 mM CuSO4) and were isolated from low-contaminated soils. Our data suggest a reduction of microbial diversity in agricultural Cu-contaminated soils from Chil