Bioactivation of food genotoxicants 5-hydroxymethylfurfural and furfuryl alcohol by sulfotransferases from human, mouse and rat: a comparative study.

5-Hydroxymethylfurfural (HMF) and furfuryl alcohol (FFA) are moderately potent rodent carcinogens that are present in thermally processed foodstuffs. The carcinogenic effects were hypothesized to originate from sulfotransferase (SULT)-mediated bioactivation yielding DNA-reactive and mutagenic sulfate esters, a confirmed metabolic pathway of HMF and FFA in mice. It is known that orthologous SULT forms substantially differ in substrate specificity and tissue distribution. This could influence HMF- and FFA-induced carcinogenic effects. Here, we studied HMF and FFA sulfoconjugation by 30 individual SULT forms of humans, mice and rats. The catalytic efficiencies (k cat/K M) of HMF sulfoconjugation of human SULT1A1 (13.7 s(-1) M(-1)), mouse Sult1a1 (15.8 s(-1) M(-1)) and 1d1 (4.8 s(-1) M(-1)) and rat Sult1a1 (5.3 s(-1) M(-1)) were considerably higher than those of all other SULT forms investigated (≤0.73 s(-1 )M(-1)). FFA sulfoconjugation was monitored using adenosine as a nucleophilic scavenger for the reactive 2-sulfoxymethylfuran (t 1/2 = 20 s at 37 °C). The resulting adduct N (6)-((furan-2-yl)methyl)-adenosine (N (6)-MF-A) was quantified by isotope-dilution UPLC-MS/MS. The rates of N (6)-MF-A formation showed that hSULT1A1 and its orthologues in mice and rats were also the most important contributors to FFA sulfoconjugation in each of the species. Taken together, the catalytic capacity of hSULT1A1 is comparable to that of mSult1a1 in mice, the species in which carcinogenic effects of HMF and FFA were detected. This is of primary concern due to the expression of hSULT1A1 in many different tissues.

State of the art in human risk assessment of silver compounds in consumer products: a conference report on silver and nanosilver held at the BfR in 2012.

In light of the broad spectrum of products containing nanosilver, the harmfulness of nanosilver to human health and the environment was intensively discussed at a conference held in February 2012 at the BfR. The conference agenda covered the aspects of analytics of nanosilver materials, human exposure and toxicology as well as effects on microorganisms and the environment. The discussion recovered major gaps related to commonly agreed guidelines for sample preparation and central analytical techniques. In particular, the characterization of the nanoparticles in complex matrices was regarded as a challenge which might become a pitfall for further innovation and application. Historical and anecdotal records of colloidal silver have been sometimes taken as empirical proof for the general low toxicity of nanosilver. Yet as reported herein, a growing number of animal studies following modern performance standards of toxicity testing have been carried out recently revealing well-characterized adverse effects on different routes of exposure in addition to argyria. Furthermore, recent approaches in exposure assessment were reported. However, consumer exposure scenarios are only starting to be developed and reliable exposure data are still rare. It was further widely agreed on the workshop that the use of silver may lead to the selection of silver resistant bacteria. With respect to its environmental behavior, it was suggested that nanosilver released to wastewater may have negligible ecotoxicological effects. Finally, the presentations and discussion on risk assessment and regulation of nanosilver applications gave insights into different approaches of risk assessment of nanomaterials to be performed under the various regulatory frameworks.

Disinfection by-products in ballast water treatment: an evaluation of regulatory data.

To reduce the global spread of invasive aquatic species, international regulations will soon require reductions of the number of organisms in ballast water discharged by ships. For this purpose, ballast water treatment systems were developed and approved by an international procedure. These systems rely on established water treatment principles which, to different degrees, have been proven to generate disinfection by-products with hazardous properties but have only scarcely been investigated in marine environments. Our study evaluates the publicly available documentation about approved ballast water treatment systems with regard to by-product formation. The most commonly employed methods are chlorination, ozonation, and ultraviolet (UV) irradiation. Chlorination systems generate trihalomethanes, halogenated acetic acids, and bromate in substantially larger quantities than reported for other areas of application. Levels are highest in brackish water, and brominated species predominate, in particular bromoform and dibromoacetic acid. Ozonation, which is less frequently utilized, produces bromoform in lower concentrations but forms higher levels of bromate, both of which were effectively reduced by active carbon treatment. In systems based on UV radiation, medium pressure lamps are employed as well as UV-induced advanced oxidation. For all UV systems, by-product formation is reported only occasionally. The most notable observations were small increases in nitrite, hydrogen peroxide, halogenated methanes and acetic acids. The assessment of by-product formation during ballast water treatment is limited by the lacking completeness and quality of available information. This concerns the extent and statistical characterisation of chemical analysis as well as the documentation of the test water parameters.

SULT1C3, an orphan sequence of the human genome, encodes an enzyme activating various promutagens.

The human genome contains a sequence that is homologous to genes encoding soluble sulphotransferases (SULTs) based on the nucleotide sequence and possible intron/exon splice sites. The putative coding sequence (termed SULT1C3) was synthesized and integrated into a bacterial expression vector. We used the cDNA-expressed protein for raising an antiserum and studying enzyme activities. No activity was detected with 4-nitrophenol and 1-naphthol, known substrates of all other members of the human SULT1 subfamily. The activity was also negligible with paracetamol, ethanol, 5-hydroxymethylfurfural, 2-hydroxymethylpyrene, 2-(alpha-hydroxy)ethylpyrene, and corticosterone, compounds for which we have developed sensitive enzyme assays with direct determination of the product by HPLC-UV, HPLC-fluorescence or HPLC-MS/MS. Since diverse sulpho conjugates are chemically reactive - often short-lived and mutagenic - we expressed SULT1C3 in Ames'Salmonella typhimurium strains TA1538 and TA100, as we had done with many other SULTs previously. The expression level of SULT1C3 protein amounted to 2% of the total cytosolic proteins, which is in the middle range of other SULTs expressed in this model. Using recombinant bacterial tester strains in mutagenicity assays, we observed SULT1C3-mediated activation of several large benzylic alcohols derived from alkylated polycyclic hydrocarbons: 1-hydroxymethylpyrene, both enantiomers of 1-(alpha-hydroxy)ethylpyrene, 6-hydroxymethylbenzo[a]pyrene and 6-hydroxymethylanthanthrene. 1'-Hydroxysafrole was the smallest molecule activated by SULT1C3 up to date. Our study demonstrates that SULT1C3 has sulphotransferase activity and that it prefers relatively large substrates. The substrates detected were activated to mutagens, which cannot be the regular function of the enzyme. The physiological substrates remain to be identified. Probably, they are relatively large, endogenous or common exogenous, molecules.