Comparison of the toxicity of sulfur mustard and its oxidation products in vitro.

The molecular toxicology of the chemical warfare agent sulfur mustard (SM) is still not completely understood. It has been suggested that in addition to SM itself also biotransformation products thereof mediate cytotoxicity. In the current study, we assessed this aspect by exposing a human hepatocyte cell line (HepG2) to SM or to its oxidation products sulfur mustard sulfoxide (SMO), sulfur mustard sulfone (SMO), and divinyl sulfone (DVS).

Validation of the CULTEX® Radial Flow System for the assessment of the acute inhalation toxicity of airborne particles.

The CULTEX® Radial Flow System (RFS) is a modular in vitro system for the homogenous exposure of cells to airborne particles at the air-liquid interface (ALI). A former pre-validation study successfully demonstrated the general applicability of the CULTEX® RFS and its transferability, stability and reproducibility. Based on these results, the methodology was optimized, validated and prediction models for acute inhalation hazards were established.

A wearable origami-like paper-based electrochemical biosensor for sulfur mustard detection.

The synthesis and employment of volatile toxic compounds as chemical weapons with a large-scale destructive power has introduced a new insidious threat over the last century. In this framework, the development of wearable sensing tools represents a critical point within the security field, in order to provide early alarm systems. Herein, a novel wearable electrochemical biosensor was developed for the rapid and on-site detection of mustard agents.

A novel exposure system generating nebulized aerosol of sulfur mustard in comparison to the standard submerse exposure.

Inhalation of the chemical warfare agent sulfur mustard (SM) is associated with severe acute and long-term pulmonary dysfunctions and health effects. The still not completely elucidated molecular toxicology and a missing targeted therapy emphasize the need for further research. However, appropriate human data are extremely rare.

N-Acetyl-L-cysteine inhibits sulfur mustard-induced and TRPA1-dependent calcium influx.

Transient receptor potential family channels (TRPs) have been identified as relevant targets in many pharmacological as well as toxicological studies. TRP channels are ubiquitously expressed in different tissues and act among others as sensors for different external stimuli, such as mechanical stress or noxious impacts. Recent studies suggest that one member of this family, the transient receptor potential ankyrin 1 cation channel (TRPA1), is involved in pain, itch, and various diseases, suggesting TRPA1 as a potential therapeutic target.

Optimization of the CULTEX(®) radial flow system for in vitro investigation of lung damaging agents.

Exposure of the respiratory tract to airborne particles is gaining more and more importance due to the ubiquitous application of these particles in the field of industry, pharmacy and in daily life. Remarkably, the toxic properties and the underlying pathomechanisms with regard to inhalable substances have been insufficiently investigated so far. Thus, the EU Chemicals Regulation demands toxicological data (including the identification of potential inhalation hazards) for all chemicals placed on the market until 2018 (REACH).

Role of cysteines in the stability and DNA-binding activity of the hypochlorite-specific transcription factor HypT.

Reactive oxygen species are important components of the immune response. Hypochlorite (HOCl) is produced by neutrophils to kill invading microorganisms. The bactericidal activity of HOCl is due to proteome-wide unfolding and oxidation of proteins at cysteine and methionine residues.