Physicochemical impacts of soluble metals on bacterial lipid chemistry and function

French, Shawn

13 September 2011

Bacterial membranes are dynamic structures, and contain lipid components that are individually simple, but complex as a whole system. The presence of charged functional groups makes them capable of interaction with ubiquitous environmental metals. Physiological responses of bacteria to metals, in preservation of membrane functions and integrity, are unclear. In this study, membrane lipid profiles were characterized for Shewanella putrefaciens CN32. Both fatty acid chemistry and hydrophilic headgroup chemistry were assayed, after growing the cells in a chemically defined medium spiked with Mn, V, or U. Cultures were grown in both aerobic and anaerobic conditions, to examine the effects of O2 and CO2 gases, as well as the combined effects of these gases with metals. The results were compared to scanning transmission X-ray microscopy (STXM) elemental maps and near-edge X-ray absorption fine structure (NEXAFS) spectra of isolated and purified S. putrefaciens CN32 envelopes at V, Mn, Ca, C, N, and O edges. It was found that there were strong correlations between membrane fluidity and fatty acid composition of strain CN32 membranes. The acyl chain chemistry was minimally affected by metal presence in the growth medium, however these subtle changes correlated with significant alterations in the fluid states of the membranes. Uranium seemed to fall outside this relationship, strongly stabilizing cell membranes. Metals in all treatments adsorbed to cell membranes, determined using either NEXAFS or electron microscopy, with the exception of V in aerobic conditions. Permeability effects of metal exposure to Ca(II), Cu(II), Mn(II), U(VI), V(IV), and Zn(II) were also assessed. Bacterial strains for these studies included S. putrefaciens CN32, Escherichia coli AB264 (wildtype K-12), Pseudomonas aeruginosa PAO1 wildtype, and Bacillus subtilis 168, in order to compare published data from the membrane chemistry of those organisms to S. putrefaciens CN32 membranes. Each metal had the same overall impact on each bacterial strain, regardless of variations in cell membrane and surface sugar chemistry, however the strengths of these effects were different for each organism. All metals with the exception of U permeabilized cell walls, while U rendered the membrane much less permeable. These impacts on permeability were concentration dependent from 0.001 mM to 1 mM concentrations. The research demonstrated that growth environment has a significant impact on the physicochemical state of bacterial membranes. Metals in those environments have varying complexation chemistry according to pH and redox conditions, and impact membrane attributes and dynamics depending on cell wall chemical composition. / This research was funded by the National Science and Engineering Research Council of Canada, as well as the Advanced Food and Materials Network.

Geochemistry

Membranes

Microbiology

Phospholipids

X-ray spectroscopy

Soluble metals

Understanding metal concentration and speciation in motorway runoff

Zakharova, J., Pouran, H., Bridgeman, John, Wheatley, A., Arif, M.

10 January 2021

Yes / Although highway runoff has historically been extensively studied, the increasing complexity of stormwater management means that there are still significant gaps regarding the reduction of soluble metals. The work reported in this paper addresses these challenges by analysing the presence and behaviour of iron, copper and zinc in runoff from junction 24 of the M1 motorway in the UK (peak traffic flow: 30,000 vehicles per hour) and comparing it with other urban sources of metals found in the same catchment (a local brook and sewage treatment works). The sampling site included an interceptor and a treatment lagoon and the event monitoring indicated a trend by which the metals did not change their concentration or particulate soluble proportion immediately, hence showing that pre- and post-storm conditions are important factors when analysing the solubility of metals and their behaviour. The data provided further evidence of the important influence of storm characteristics on metal concentrations in highway runoff, in particular the effects of an antecedent dry weather period (ADWP). In addition, this study also helped us to better understand how the release of sodium the application of de-icer for road maintenance in winter affects the availability of zinc.

ADWP

De-icer application

Highway runoff

Soluble metals

SuDS

Genotoxicidade in vitro das frações orgânica e solúvel em água de material particulado de ar em três locais do Estado de São Paulo / Genotoxicity in vitro of organic and soluble water fractions of airborne particulate matter in three sites of São Paulo State

Palacio Betancur, Isabel Cristina

17 August 2016

O aumento na poluição ambiental é na atualidade uma das grandes preocupações em nível mundial. Especificamente, a poluição atmosférica por material particulado tem demostrado ser um fator determinante no desenvolvimento de doenças cardiopulmonares e câncer de pulmão nas populações expostas. O material particulado é constituído por uma mistura complexa de compostos orgânicos e inorgânicos, muitos dos quais possuem potencial mutagênico e genotóxico. As características destes compostos variam em função da suas propriedades físicas, químicas e em razão das condições meteorológicas prevalecentes. A maior parte dos estudos tem se focado em avaliar o potencial genotóxico da fração orgânica do material particulado e poucos estudos têm explorado a fração solúvel em água e a contribuição diferencial das diversas espécies químicas presentes nesta fração para o dano genotóxico. O objetivo deste trabalho foi avaliar os efeitos mutagênicos e genotóxicos in vitro da fração orgânica e da fração solúvel em água de material particulado (MP10) coletado em três locais diferentes do estado de São Paulo e estabelecer a relação entre a composição química e o efeito biológico observado. Para isto, realizou­-se a extração orgânica e solúvel em água de 12 amostras de MP10. A mutagenicidade e genotoxicidade foram avaliadas usando o ensaio de Salmonella/microssoma e o teste de micronúcleos (MN) em células A549 e 16 hidrocarbonetos Policíclicos Aromáticos (HPAs) e 15 metais hidrossolúveis presentes nas amostras foram determinados quimicamente. Adicionalmente, foi determinada a metodologia de extração da fracção solúvel em água e se avaliou a estabilidade química e biológica desta fração. Os resultados indicam que a extração assistida por micro-ondas é um método eficiente para a extração da fração solúvel em agua do MP e que um tempo superior a 60 dias de armazenamento e congelamento deste tipo de extrato tem um efeito significativo sobre os resultados analíticos e a resposta biológica. Foi demonstrado ainda que as duas frações de MP estudadas são responsáveis pela indução do dano ao DNA e que não existe uma relação direta entre a concentração de MP e o efeito genotóxico observado, confirmando a importância do uso de bioensaios na avaliação da genotoxicidade de misturas complexas como o MP. Os HPAs prevalecentes nas amostras de PM10 foram fluorantene e benzo(ghi)perileno. Nos extratos solúveis em água, as maiores concentrações de metais foram determinadas para zinco, ferro e cobre. Confirmou-se que a indução de MN e o ensaio de Salmonella/microssoma representam uma poderosa ferramenta na avaliação da polução atmosférica e que as análises químicas por si só não são suficientes para a proteção e predição dos efeitos biológicos em populações expostas. / The increase of environmental pollution is today one a major concern worldwide. Specifically, air pollution by particulate matter has been shown to be a determining factor in the development of cardiopulmonary disease and lung cancer in exposed populations. The particulate material consists of a complex mixture of organic and inorganic compounds, many of which have mutagenic and genotoxic activity. The characteristics of these compounds vary according to their physical and chemical properties and also to the prevailing weather conditions. Most studies have focused on evaluating the genotoxic potential of the organic fraction of particulate material, but few studies have explored the water­-soluble fraction, and the differential contributions of different chemical species present in this fraction to genotoxic damage. The aim of this study was to evaluate the in vitro mutagenic and genotoxic effects of organic and water-soluble fractions of 12 samples of particulate matter (PM10) collected at three different sites in the state of São Paulo and establish the relationship between the chemical composition and the biological effect observed. The mutagenicity and genotoxicity were evaluated using the Salmonella/microssome test and the micronucleus assay (MN) in A549 cells and 16 Polycyclic Aromatic Hydrocarbons (PAHs) and 15 water-soluble metals present in the samples were chemically determined. Additionally, the extraction method of water- soluble fraction was determined and the chemical and biological stability of this fraction evaluated. The results indicate that the microwave­-assisted extraction is an efficient method for the extraction of the water-soluble compounds of PM and that the freezing and storage of the extract over 60 days has a significant effect on the mutagenic and analytical results of PM samples. It was demonstrated that the two PM fractions studied are responsible for the induction of DNA damage and that there is no direct relationship between the MP concentration and the genotoxic effect observed, confirming the importance of using bioassays in the genotoxicity evaluation of complex mixtures as PM. The PAHs prevailing in our samples were fluoranthene and benzo(ghi)perylene. In the water-soluble extracts, highest concentrations of the elements studied were found for zinc, iron, and copper in the three places of sampling. We confirmed that MN induction and Salmonella/microsome assay represents a powerful tool to evaluate the atmospheric air pollution and that the total concentration of PM and the chemical analyses alone would not be sufficient for the prognosis of biological effects in exposed populations

Salmonella/microssoma

Salmonella/microssome

Genotoxicidade

Genotoxicity

HAPs

Metais hidrossolúveis

Micronucleos

MP10

PAHs

PM10

Water-­soluble metals

Genotoxicidade in vitro das frações orgânica e solúvel em água de material particulado de ar em três locais do Estado de São Paulo / Genotoxicity in vitro of organic and soluble water fractions of airborne particulate matter in three sites of São Paulo State

Isabel Cristina Palacio Betancur

17 August 2016

O aumento na poluição ambiental é na atualidade uma das grandes preocupações em nível mundial. Especificamente, a poluição atmosférica por material particulado tem demostrado ser um fator determinante no desenvolvimento de doenças cardiopulmonares e câncer de pulmão nas populações expostas. O material particulado é constituído por uma mistura complexa de compostos orgânicos e inorgânicos, muitos dos quais possuem potencial mutagênico e genotóxico. As características destes compostos variam em função da suas propriedades físicas, químicas e em razão das condições meteorológicas prevalecentes. A maior parte dos estudos tem se focado em avaliar o potencial genotóxico da fração orgânica do material particulado e poucos estudos têm explorado a fração solúvel em água e a contribuição diferencial das diversas espécies químicas presentes nesta fração para o dano genotóxico. O objetivo deste trabalho foi avaliar os efeitos mutagênicos e genotóxicos in vitro da fração orgânica e da fração solúvel em água de material particulado (MP10) coletado em três locais diferentes do estado de São Paulo e estabelecer a relação entre a composição química e o efeito biológico observado. Para isto, realizou­-se a extração orgânica e solúvel em água de 12 amostras de MP10. A mutagenicidade e genotoxicidade foram avaliadas usando o ensaio de Salmonella/microssoma e o teste de micronúcleos (MN) em células A549 e 16 hidrocarbonetos Policíclicos Aromáticos (HPAs) e 15 metais hidrossolúveis presentes nas amostras foram determinados quimicamente. Adicionalmente, foi determinada a metodologia de extração da fracção solúvel em água e se avaliou a estabilidade química e biológica desta fração. Os resultados indicam que a extração assistida por micro-ondas é um método eficiente para a extração da fração solúvel em agua do MP e que um tempo superior a 60 dias de armazenamento e congelamento deste tipo de extrato tem um efeito significativo sobre os resultados analíticos e a resposta biológica. Foi demonstrado ainda que as duas frações de MP estudadas são responsáveis pela indução do dano ao DNA e que não existe uma relação direta entre a concentração de MP e o efeito genotóxico observado, confirmando a importância do uso de bioensaios na avaliação da genotoxicidade de misturas complexas como o MP. Os HPAs prevalecentes nas amostras de PM10 foram fluorantene e benzo(ghi)perileno. Nos extratos solúveis em água, as maiores concentrações de metais foram determinadas para zinco, ferro e cobre. Confirmou-se que a indução de MN e o ensaio de Salmonella/microssoma representam uma poderosa ferramenta na avaliação da polução atmosférica e que as análises químicas por si só não são suficientes para a proteção e predição dos efeitos biológicos em populações expostas. / The increase of environmental pollution is today one a major concern worldwide. Specifically, air pollution by particulate matter has been shown to be a determining factor in the development of cardiopulmonary disease and lung cancer in exposed populations. The particulate material consists of a complex mixture of organic and inorganic compounds, many of which have mutagenic and genotoxic activity. The characteristics of these compounds vary according to their physical and chemical properties and also to the prevailing weather conditions. Most studies have focused on evaluating the genotoxic potential of the organic fraction of particulate material, but few studies have explored the water­-soluble fraction, and the differential contributions of different chemical species present in this fraction to genotoxic damage. The aim of this study was to evaluate the in vitro mutagenic and genotoxic effects of organic and water-soluble fractions of 12 samples of particulate matter (PM10) collected at three different sites in the state of São Paulo and establish the relationship between the chemical composition and the biological effect observed. The mutagenicity and genotoxicity were evaluated using the Salmonella/microssome test and the micronucleus assay (MN) in A549 cells and 16 Polycyclic Aromatic Hydrocarbons (PAHs) and 15 water-soluble metals present in the samples were chemically determined. Additionally, the extraction method of water- soluble fraction was determined and the chemical and biological stability of this fraction evaluated. The results indicate that the microwave­-assisted extraction is an efficient method for the extraction of the water-soluble compounds of PM and that the freezing and storage of the extract over 60 days has a significant effect on the mutagenic and analytical results of PM samples. It was demonstrated that the two PM fractions studied are responsible for the induction of DNA damage and that there is no direct relationship between the MP concentration and the genotoxic effect observed, confirming the importance of using bioassays in the genotoxicity evaluation of complex mixtures as PM. The PAHs prevailing in our samples were fluoranthene and benzo(ghi)perylene. In the water-soluble extracts, highest concentrations of the elements studied were found for zinc, iron, and copper in the three places of sampling. We confirmed that MN induction and Salmonella/microsome assay represents a powerful tool to evaluate the atmospheric air pollution and that the total concentration of PM and the chemical analyses alone would not be sufficient for the prognosis of biological effects in exposed populations

Salmonella/microssoma

Genotoxicidade

HAPs

Metais hidrossolúveis

Micronucleos

MP10

Salmonella/microssome

Genotoxicity

PAHs

PM10

Water-­soluble metals