Fitoextracção de cádmio de solos contaminados, com plantas seleccionadas

A remediação de locais contaminados com metais pesados usando plantas hiperacumuladoras aparenta ser uma alternativa bastante viável. Neste trabalho comparou-se a acumulação e tolerância ao cádmio (Cd), ambas baseadas nas respostas ao stress oxidativo em três espécies de plantas diferentes: Brassica juncea (L.) Czem., Nicotiana tabacum L. e Solanum nigrum L., descritas na literatura como plantas bastante tolerantes ou até com características híper acumuladoras. As plantas cresceram num solo contaminado com diferentes concentrações de Cd (O- 35 mg kg-1) durante um período de 90 dias. O factor de translocação (FT), utilizado para medir a translocação efectiva do Cd da raiz para a parte aérea, variou consideravelmente entre as espécies desenvolvidas. A N. tabacum foi a planta que apresentou os maiores valores de FT. Neste trabalho foi a única planta que preencheu todas as condições para ser considerada hiperacumuladora para todos os níveis de contaminação do solo. Por outro lado, a S. nigrum apresentou os maiores valores de concentração de Cd nos tecidos, com um FT > 1, na presença de 5 mg Cd kg·1 de solo. Apesar da B. juncea ter apresentado um resultado de FT inferior às restantes, foi a única planta com valores crescentes de FT com o aumento da contaminação de Cd. O stress oxidativo nas plantas desenvolvidas foi avaliado pela peroxidação lipídica e pelas actividades da catalase (CAT), ascorbato peroxidase (APX), guaiacol peroxidase (GPX) e superóxido dismutase (SOO), quer na raiz quer na parte aérea. Foi observado um aumento significativo (versus controlo) na peroxidação lipídica e actividade enzimática da CATe APX na parte aérea da B. juncea, N. tabacum e S. nigrum para os níveis de contaminação mais elevados, 15 e/ou 35 mg Cd kg-1 A B. juncea apresentou maior sensibilidade na resposta da GPX, para todas as concentrações de Cd no solo. A peroxidação lipídica e a actividade da CAT foram superiores na parte aérea em relação à raiz para todas as plantas em todas as contaminações de Cd presentes no solo. A actividade da SOO não apresentou respostas consistentes para nenhuma das plantas. ABSTRACT: Remediation of sites contaminated with heavy metals using hyper accumulators seems a promising alternative to engineering approaches. ln this work, we compared cadmium (Cd) accumulation and tolerance (based on responses to oxidative stress) in three different species, Brassica juncea (L) Czem., Nicotiana tabacum L. and Solanum nigrum L., described in the literature as very tolerant or even as hyper accumulators. The plants were grown in soil spiked with different Cd concentrations (O- 35 mg kg- 1) over a period of 90 days. The translocation factor (TF), used to measure the effectiveness of translocating Cd from roots to shoots, depended greatly on the species. N. tabacum was the plant which exhibited the highest TF values. lt was the only plant under study that fulfilled the conditions of a hyper accumulator for all levels of soil contamination. On the other hand, S. nigrum presented the highest Cd concentration in plant tissues, with TF > 1 in the presence of 5 mg Cd kg-1 of soil. Although B. juncea had presented the lowest TF and Cd concentrations, it was the only plant with TF values increasing with the level of cadmium. Oxidative stress in plants was evaluated by lipid peroxidation and activities of catalase (CAT), ascorbate peroxidase (APX), guaiacol peroxidase (GPX) and superoxide dismutase (SOO), both in roots and shoots. A significant enhancement (versus control) on lipid peroxidation and enzymatic activity of CAT and APX in shoots of B. juncea, N. tabacum and S. nigrum was observed for the highest levels of Cd in soil, 15 and/or 35 mg Cd kg-1. B. juncea presented the most sensitive response of GPX, for all levels of Cd in soil. Lipid peroxidation and CAT activity were greater in shoots than in roots for all plants and soil Cd concentrations. SOO activity did not present consistent trends for any plant.

Use of a New Tetrazolium-Based Assay to Study the Production of Superoxide Radicals by Tobacco Cell Cultures Challenged with Avirulent Zoospores of Phytophthora parasitica var nicotianae1

The relationship between the production of reactive oxygen species and the hypersensitive response (HR) of tobacco (Nicotiana tabacum L.) toward an incompatible race of the Oomycete Phytophthora parasitica var nicotianae has been investigated. A new assay for superoxide radical (O2−) production based on reduction of the tetrazolium dye sodium,3′-(1-[phenylamino-carbonyl]-3,4-tetrazolium)-bis(4-methoxy-6-nitro) benzene-sulfonic acid hydrate (XTT) has enabled the quantitative estimation of perhydroxyl/superoxide radical acid-base pair (HO2·/O2−) production during the resistant response. Tobacco suspension cells were inoculated with zoospores from compatible or incompatible races of the pathogen. Subsequent HO2·/O2− production was monitored by following the formation of XTT formazan. In the incompatible interaction only, HO2·/O2− was produced in a minor burst between 0 and 2 h and then in a major burst between 8 and 10 h postinoculation. During this second burst, rates of XTT reduction equivalent to a radical flux of 9.9 × 10−15 mol min−1 cell−1 were observed. The HO2·/O2− scavengers O2− dismutase and Mn(III)desferal each inhibited dye reduction. An HR was observed in challenged, resistant cells immediately following the second burst of radical production. Both scavengers inhibited the HR when added prior to the occurrence of either radical burst, indicating that O2− production is a necessary precursor to the HR.

Mycobacterium tuberculosis has diminished capacity to counteract redox stress induced by elevated levels of endogenous superoxide

Mycobacterium tuberculosis (Mtb) has evolved protective and detoxification mechanisms to maintain cytoplasmic redox balance in response to exogenous oxidative stress encountered inside host phagocytes. In contrast, little is known about the dynamic response of this pathogen to endogenous oxidative stress generated within Mtb. Using a noninvasive and specific biosensor of cytoplasmic redox state of Mtb, we for first time discovered a surprisingly high sensitivity of this pathogen to perturbation in redox homeostasis induced by elevated endogenous reactive oxygen species (ROS). We synthesized a series of hydroquinone-based small molecule ROS generators and found that ATD-3169 permeated mycobacteria to reliably enhance endogenous ROS including superoxide radicals. When Mtb strains including multidrug-resistant (MDR) and extensively drug-resistant (XDR) patient isolates were exposed to this compound, a dose-dependent, long-lasting, and irreversible oxidative shift in intramycobacterial redox potential was detected. Dynamic redox potential measurements revealed that Mtb had diminished capacity to restore cytoplasmic redox balance in comparison with Mycobacterium smegmatis (Msm), a fast growing nonpathogenic mycobacterial species. Accordingly, Mtb strains were extremely susceptible to inhibition by ATD-3169 but not Msm, suggesting a functional linkage between dynamic redox changes and survival. Microarray analysis showed major realignment of pathways involved in redox homeostasis, central metabolism, DNA repair, and cell wall lipid biosynthesis in response to ATD-3169, all consistent with enhanced endogenous ROS contributing to lethality induced by this compound. This work provides empirical evidence that the cytoplasmic redox poise of Mtb is uniquely sensitive to manipulation in steady-state endogenous ROS levels, thus revealing the importance of targeting intramycobacterial redox metabolism for controlling TB infection. (C) 2015 The Authors. Published by Elsevier Inc.