Jürgen Arning

Publications

• 3.45

  Impact points

  Determination of LFER Descriptors of 30 Cations of Ionic Liquids-Progress in Understanding Their Molecular Interaction Potentials.

  Chul-Woong Cho, Christian Jungnickel, Stefan Stolte, Ulrich Preiss, Jürgen Arning, Johannes Ranke, Ingo Krossing, Jorg Thöming

  Chemphyschem : a European journal of chemical physics and physical chemistry. 02/2012; 13(3):780-7.

  In order to understand molecular interaction potentials of 30 cations of ionic liquids (ILs), the well-known linear free energy relationship concept (LFER) was applied. The LFER descriptors for the excess molar refractivity and the molar volume were calculated in silico and for hydrogen-bonding acid... [more] In order to understand molecular interaction potentials of 30 cations of ionic liquids (ILs), the well-known linear free energy relationship concept (LFER) was applied. The LFER descriptors for the excess molar refractivity and the molar volume were calculated in silico and for hydrogen-bonding acidity and basicity, and the polarizability/dipolarity of IL cations were experimentally determined through high performance liquid chromatography (HPLC) measurements. For the study, three different columns (RP-select B, Cyan, and Diol) and buffered mobile phases, based on two organic solvents acetonitrile (ACN) and methanol (MeOH), were selectively combined to the HPLC separation systems RP-select B-ACN, RP-select B-MeOH, Cyan-MeOH, Diol-ACN, and Diol-MeOH. By measuring the retention factors of 45 neutral calibration compounds and calculating LFER descriptors of three cations in the HPLC systems, the system parameters, including an ionic z coefficient, were determined. Conversely, the LFER descriptors of 30 ionic liquid cations were determined, based on the parameters of five systems and their retention factors in the HPLC systems. The results showed that the type of head group, alkyl chain length and further substituents of the cation have a significant influence on the dipolarity/polarizability and the hydrogen-bonding acidity, and functionalized groups (hydroxyl, ether, and dimethylamino) lead to hydrogen-bonding basicity of the cation. The characterization of cationic LFER descriptors opens up the chance for a more quantitative understanding of molecular interaction potentials and physicochemical properties of ILs.
• 3.25

  Impact points

  Ecotoxicity evaluation of selected sulfonamides.

  Anna Białk-Bielińska, Stefan Stolte, Jürgen Arning, Ute Uebers, Andrea Böschen, Piotr Stepnowski, Marianne Matzke

  Chemosphere. 07/2011; 85(6):928-33.

  Sulfonamides (SAs) are a group of antibiotic drugs widely used in veterinary medicine. The contamination of the environment by these pharmaceuticals has raised concern in recent years. However, knowledge of their (eco)toxicity is still very basic and is restricted to just a few of these substances. ... [more] Sulfonamides (SAs) are a group of antibiotic drugs widely used in veterinary medicine. The contamination of the environment by these pharmaceuticals has raised concern in recent years. However, knowledge of their (eco)toxicity is still very basic and is restricted to just a few of these substances. Even though their toxicological analysis has been thoroughly performed and ecotoxicological data are available in the literature, a systematic analysis of their ecotoxicological potential has yet to be carried out. To fill this gap, 12 different SAs were chosen for detailed analysis with the focus on different bacteria as well as non-target organisms (algae and plants). A flexible (eco)toxicological test battery was used, including enzymes (acetylcholinesterase and glutathione reductase), luminescent marine bacteria (Vibrio fischeri), soil bacteria (Arthrobacter globiformis), limnic unicellular green algae (Scenedesmus vacuolatus) and duckweed (Lemna minor), in order to take into account both the aquatic and terrestrial compartments of the environment, as well as different trophic levels. It was found that SAs are not only toxic towards green algae (EC₅₀=1.54-32.25 mg L⁻¹) but have even stronger adverse effect on duckweed (EC₅₀=0.02-4.89 mg L⁻¹) than atrazine - herbicide (EC₅₀=2.59 mg L⁻¹).
• 3.47

  Impact points

  Ionic liquids: predictions of physicochemical properties with experimental and/or DFT-calculated LFER parameters to understand molecular interactions in solution.

  Chul-Woong Cho, Ulrich Preiss, Christian Jungnickel, Stefan Stolte, Jürgen Arning, Johannes Ranke, Andreas Klamt, Ingo Krossing, Jorg Thöming

  The journal of physical chemistry. B. 05/2011; 115(19):6040-50.

  In this article, we present evolutionary models to predict the octanol-water partition coefficients (log P), water solubilities, and critical micelle concentrations (CMCs) of ionic liquids (ILs), as well as the anionic activity coefficients and hydrophobicities in pure water and octanol-water. They ... [more] In this article, we present evolutionary models to predict the octanol-water partition coefficients (log P), water solubilities, and critical micelle concentrations (CMCs) of ionic liquids (ILs), as well as the anionic activity coefficients and hydrophobicities in pure water and octanol-water. They are based on a polyparameter linear free energy relationship (LFER) using measured and/or DFT-calculated LFER parameters: hydrogen-bonding acidity (A), hydrogen-bonding basicity (B), polarizability/dipolarity (S), excess molar refraction (E), and McGowan volume (V) of IL ions. With both calculated or experimental LFER descriptors of IL ions, the physicochemical parameters were predicted with an errors of 0.182-0.217 for the octanol-water partition coefficient and 0.131-0.166 logarithmic units for the water solubility. Because experimentally determined solute parameters of anions are not currently available, the CMC, anionic activity coefficient, and hydrophobicity were predicted with quantum-chemical methods with R(2) values of at least 0.99, as well as errors below 0.168 logarithmic units. These new approaches will facilitate the assessment of the technical applicability and environmental fate of ionic compounds even before their synthesis.
• 1.96

  Impact points

  Permeation through nanochannels: revealing fast kinetics.

  Kozhinjampara R Mahendran, Pratik Raj Singh, Jürgen Arning, Stefan Stolte, Ulrich Kleinekathöfer, Mathias Winterhalter

  Journal of physics. Condensed matter : an Institute of Physics journal. 11/2010; 22(45):454131.

  The permeation of water soluble molecules across cell membranes is controlled by channel-forming proteins and, in particular, the channel surface determines the selectivity. An adequate method to study the properties of these channels is electrophysiology and, in particular, analyzing the ion curren... [more] The permeation of water soluble molecules across cell membranes is controlled by channel-forming proteins and, in particular, the channel surface determines the selectivity. An adequate method to study the properties of these channels is electrophysiology and, in particular, analyzing the ion current fluctuation in the presence of permeating solutes. Ion current fluctuation analysis provides information on possible interactions of solutes with the channel surface. Due to the limited time resolution, fast permeation events are not visible using standard techniques. Here, we demonstrate that miniaturization of the lipid bilayer; varying the temperature or changing the solvent may enhance the resolution. Although electrophysiology is considered as a single molecule technique, it does not provide atomic resolution. Molecular details of solute permeation can be revealed by combining electrophysiology and all-atom computer modeling; these methods include ion conductance, selectivity, ion pair formation, and rate limiting interactions of the solute with the channel walls during permeation.
• 3.74

  Impact points

  Analyzing Cytotoxic Effects of Selected Isothiazol-3-one Biocides Using the Toxic Ratio Concept and Structure-Activity Relationship Considerations.

  Jürgen Arning, Marianne Matzke, Stefan Stolte, Frauke Nehen, Ulrike Bottin-Weber, Andrea Böschen, Salha Abdulkarim, Bernd Jastorff, Johannes Ranke

  Chemical research in toxicology. 11/2009;

  To demonstrate how baseline toxicity can be separated from other more specific modes of toxic action and to address possible pitfals when dealing with hydrophobic substances, the four isothiazol-3-one biocides N-methylisothiazol-3-one (MIT), 5-chloro-N-methylisothiazol-3-one (CIT), N-octylisothiazol... [more] To demonstrate how baseline toxicity can be separated from other more specific modes of toxic action and to address possible pitfals when dealing with hydrophobic substances, the four isothiazol-3-one biocides N-methylisothiazol-3-one (MIT), 5-chloro-N-methylisothiazol-3-one (CIT), N-octylisothiazol-3-one (OIT), and 4,5-dichloro-N-octylisothiazol-3-one (DCOIT) as an example for reactive electrophilic xenobiotics were tested for their cytotoxic effects on the human hepatoblastoma cell line Hep G2, on the marine bacterium Vibrio fischeri, and on the limnic green alga Scenedesmus vacuolatus. In each of the three test systems, toxic effects were observed in a consistent pattern. The two chlorinated compounds and OIT were found to be significantly more toxic than MIT. As compared to baseline toxicants, the small and polar MIT and CIT exhibited pronounced excess toxicity in each of the three test systems that is presumably triggered by their intrinsic reactivity toward cellular thiols. In contrast, OIT and DCOIT showed mainly toxicities that could be explained by their hydrophobicity. Analyzing and comparing these results using the toxic ratio concept and with data that indicate a dramatic depletion of cellular glutathione levels after incubation with DCOIT reveals that for highly hydrophobic substances, baseline level toxicity in an assay for acute toxicity can lead to an oversight of other more specific modes of toxic action that may cause significant effects that might be less reversible than those caused by unreactive baseline toxicants. This possibility should be taken into account in the hazard assessment of chemicals that are both hydrophobic and reactive.
• 3.51

  Impact points

  Ionic liquids in soils: effects of different anion species of imidazolium based ionic liquids on wheat (Triticum aestivum) as affected by different clay minerals and clay concentrations.

  Marianne Matzke, Stefan Stolte, Jürgen Arning, Ute Uebers, Juliane Filser

  Ecotoxicology (London, England). 11/2008;

  This study contributes to a prospective hazard assessment of ionic liquids, focusing on the terrestrial environment. The influence of differently composed soils-varying contents of the clay minerals smectite and kaolinite-on the toxicity of different anion species of imidazolium based ionic liquids ... [more] This study contributes to a prospective hazard assessment of ionic liquids, focusing on the terrestrial environment. The influence of differently composed soils-varying contents of the clay minerals smectite and kaolinite-on the toxicity of different anion species of imidazolium based ionic liquids was studied for growth inhibition of wheat (Triticum aestivum). IM14 (CF(3)SO(2))(2)N appeared the most toxic, independently of the investigated soil type. The toxicity of IM14 Cl, IM14 BF(4) and IM14 HSO(4) was mainly dominated by the cationic moiety. The observed effects varied in dependence of the added clay type and clay concentration. An increase of clay content resulted in less pronounced effects of these substances. In contrast, for IM14 (CF(3)SO(2))(2)N the addition of clay minerals caused higher toxic effects in comparison to the reference soil. Our results give first hints for the assumption, that ionic liquids whose toxic action is based on the anionic moiety are especially hazardous for soils, particular for soils with high clay contents.
• 3.24

  Impact points

  Structure-activity relationships for the impact of selected isothiazol-3-one biocides on glutathione metabolism and glutathione reductase of the human liver cell line Hep G2.

  Jürgen Arning, Ralf Dringen, Maike Schmidt, Anette Thiessen, Stefan Stolte, Marianne Matzke, Ulrike Bottin-Weber, Birgit Caesar-Geertz, Bernd Jastorff, Johannes Ranke

  Toxicology. 05/2008; 246(2-3):203-12.

  To investigate the toxic mode of action of isothiazol-3-one biocides the four compounds N-methylisothiazol-3-one (MIT), 5-chloro-N-methylisothiazol-3-one (CIT), N-octylisothiazol-3-one (OIT) and 4,5-dichloro-N-octylisothiazol-3-one (DCOIT) were purified and tested as single chemical entities for the... [more] To investigate the toxic mode of action of isothiazol-3-one biocides the four compounds N-methylisothiazol-3-one (MIT), 5-chloro-N-methylisothiazol-3-one (CIT), N-octylisothiazol-3-one (OIT) and 4,5-dichloro-N-octylisothiazol-3-one (DCOIT) were purified and tested as single chemical entities for their effects on the human hepatoblastoma cell line Hep G2 and on isolated and cellular glutathione reductase GR). The two chlorinated substances CIT and DCOIT significantly decreased the amount of total cellular glutathione (GSx) in a dose and time dependent manner. Concomitantly, an increase in the level of oxidised glutathione (GSSG) was observed. The resulting shift in the GSH/GSSG ratio entailing the breakdown of the cellular thiol reduction potential was accompanied by necrotic morphological changes like swelling of the plasma membrane and subsequent lysis of the cells. Additionally, CIT and DCOIT were found to inhibit cellular GR in the cells in a concentration dependent manner. The T-SAR-based (thinking in terms of structure-activity relationships) comparison of the chlorine-substituted structures CIT and DCOIT with their non-chlorinated and less active analogues MIT and OIT identified the chlorine substituents and the resulting reaction mechanisms to be the key structural mediators of the observed toxic effects. Furthermore, differences in the activity of both chlorinated substances could be explained using the T-SAR approach to link the lipophilicity and the intrinsic glutathione-reactivity of the compounds to the expected target site concentrations inside the cells.
• 2.13

  Impact points

  Lipophilicity parameters for ionic liquid cations and their correlation to in vitro cytotoxicity.

  Johannes Ranke, Anja Müller, Ulrike Bottin-Weber, Frauke Stock, Stefan Stolte, Jürgen Arning, Reinhold Störmann, Bernd Jastorff

  Ecotoxicology and environmental safety. 08/2007; 67(3):430-8.

  Regarding the great structural variability of the currently expanding group of ionic liquids, it is highly desirable to understand the basic factors affecting their toxicity in different biological systems. The present study of a set of 74 ionic liquids with imidazolium, pyrrolidinium, pyridinium, q... [more] Regarding the great structural variability of the currently expanding group of ionic liquids, it is highly desirable to understand the basic factors affecting their toxicity in different biological systems. The present study of a set of 74 ionic liquids with imidazolium, pyrrolidinium, pyridinium, quinolinium, quaternary phosphonium and quaternary ammonium cations and the comparatively small anions Cl(-), Br(-), BF(4)(-), or PF(6)(-) demonstrates the influence of the cation lipophilicity on the cytotoxicity in IPC-81 leukemia cells from rats. The scope of this correlation is limited to ionic liquids with these or similarly small anions that are sufficiently nonreactive under physiological and chromatographic conditions and whose cation lipophilicity does not exceed a certain threshold.
• 35.96

  Impact points

  Design of sustainable chemical products--the example of ionic liquids.

  J Ranke, S Stolte, R Störmann, J Arning, B Jastorff

  Chemical reviews. 07/2007; 107(6):2183-206.
• 1.13

  Impact points

  Zinc homeostasis in C6 glioma cells: phospholipase C activity regulates cellular zinc export.

  Sven Jansen, Jürgen Arning, Detmar Beyersmann

  Biological trace element research. 02/2005; 108(1-3):87-104.

  Zinc homeostasis in mammalian cells is precisely regulated by cellular signal transduction mechanisms. The main result of this study is the finding that modulators of phospholipase C (PLC) activity affect cellular zinc export. Two different PLC inhibitors caused an increase of the total cellular zin... [more] Zinc homeostasis in mammalian cells is precisely regulated by cellular signal transduction mechanisms. The main result of this study is the finding that modulators of phospholipase C (PLC) activity affect cellular zinc export. Two different PLC inhibitors caused an increase of the total cellular zinc level whereas two different PLC activators caused a decrease. Furthermore, both the inhibition of cyclic nucleotide phosphodiesterases as well as the administration of 8-bromo-cAMP evoked a drop in the intracellular zinc level, indicating the involvement of cAMP in the control of cellular zinc export. It is concluded that the activity of PLC controls cellular zinc transport and that the effect of elevated zinc concentrations on PLC activity might be mediated by cAMP. However, modulation of other major signaling enzymes did not affect the cellular zinc homeostasis. These include activation and inhibition of guanylate cyclase, activation of protein kinase G, activation of protein kinase A, and activation or inhibition of protein kinase C. Furthermore there was no evidence for the existence of a zinc-sensing receptor in C6 glioma cells, which would stimulate PLC activity and evoke a mobilization of intracellular free-calcium levels.
• 3.29

  Impact points

  S-Nitroso compounds interfere with zinc probing by Zinquin.

  Sven Jansen, Jürgen Arning, Thomas Dülcks, Detmar Beyersmann

  Analytical biochemistry. 10/2004; 332(1):145-52.

  The intracellular homeostasis of zinc is postulated to be controlled by signaling through nitric oxide (NO). Administration of the NO donor S-nitrosocysteine (SNOC) caused a rapid drop in the fluorescence of the zinc-specific fluorescence of the zinc probe zinquin in C6 glioma cells. Tentatively, a ... [more] The intracellular homeostasis of zinc is postulated to be controlled by signaling through nitric oxide (NO). Administration of the NO donor S-nitrosocysteine (SNOC) caused a rapid drop in the fluorescence of the zinc-specific fluorescence of the zinc probe zinquin in C6 glioma cells. Tentatively, a strong effect of NO on the level of mobile intracellular zinc ions was concluded. However, zinc analysis with atomic absorption spectrometry demonstrated that the total cellular zinc level was not changed under these conditions. Sodium nitrite or an NO donor devoid of sulfhydryl groups (diethylamine NONOate) exerted no degrading effect on the Zn/zinquin fluorescence, but cysteine alone evoked a similar decline as SNOC. Hence, the sulfhydryl groups of cysteine seem to compete for zinc from the Zn/zinquin complex. Analysis of the reaction products by mass spectrometry demonstrated that cysteine caused a depletion of zinc from the Zn/zinquin complex, whereas an NO donor without sulfhydryl groups (diethylamine NONOate) did not. It is concluded that great caution should be employed when using S-nitroso compounds together with zinquin in investigations of intracellular zinc homeostasis.
• 3.29

  Impact points

  Phospholipase C activator 2,4,6-trimethyl-N-(meta-3-trifluoromethyl-phenyl)-benzene-sulfonamide decays under ultraviolet light and shows strong self-fluorescence.

  Sven Jansen, Jürgen Arning, Dorit Kemken, Thomas Dülcks, Detmar Beyersmann

  Analytical biochemistry. 08/2004; 330(2):353-5.
• 1.13

  Impact points

  Effects of the Ca ionophore a23187 on zinc-induced apoptosis in C6 glioma cells.

  Sven Jansen, Jürgen Arning, Detmar Beyersmann

  Biological trace element research. 02/2003; 96(1-3):133-42.

  Zinc ions are essential, but at elevated concentrations, they also have toxic effects on mammalian cells. Zinc plays a crucial role in cell proliferation and differentiation and it even protects cells against apoptosis caused by various reagents. On the other hand, zinc at high concentrations causes... [more] Zinc ions are essential, but at elevated concentrations, they also have toxic effects on mammalian cells. Zinc plays a crucial role in cell proliferation and differentiation and it even protects cells against apoptosis caused by various reagents. On the other hand, zinc at high concentrations causes cell death that was characterized as apoptotic by internucleosomal DNA fragmentation, formation of apoptotic bodies, and breakdown of the mitochondrial membrane potential. In the present work, a clone of rat C6 glioma cells that was resistant to toxic effects of ZnCl2 up to 250 microM was employed to study the effect of the ionophore A23187 on zinc-induced apoptosis. Neither 150 microM Zn2+ nor 100 nM A23187 alone caused apoptosis as measured by internucleosomal DNA fragmentation. However, combined exposure of C6 cells to 100 nM A23187 and 150 microM Zn2+ for 48 h was effective in inducing apoptosis. Because the so-called calcium ionophore A23187 is not specific for Ca2+ ions but also transports Zn2+ with high selectivity over Ca2+, we investigated whether this substance promoted the uptake of Zn2+ ions into C6 cells. Employing the zinc-specific fluorescence probe Zinquin, we observed that the very low concentration of 1.9 nM A23187 significantly and rapidly raised the intracellular mobile Zn2+ content. Analysis by atomic absorption spectroscopy revealed that incubation with 1.9 nM A23187 caused a doubling of the total intracellular zinc level within 60 min. We conclude that the apoptosis evoked by the combined action of Zn2+ and A23187 was the result of enhanced Zn2+ influx evoked by the ionophore, resulting in higher intracellular zinc levels.

• Structure-Activity Relationships for an Ecotoxicological Hazard Assessment of Selected Isothiazol-3-one Biocides and Ionic LiquidsA Mode-of-Action-Based Strategy

  Jürgen Arning

  http://elib.suub.uni-bremen.de/diss/docs/00011400.pdf.

  In the presented work two case studies using highly reactive Isothiazol-3-one biocides and Ionic liquids are presented. It was the aim of these studies to get a deeper knowledge on the hazard potential of the selected substances by applying a mode of action based testing strategy and a flexible toxi... [more] In the presented work two case studies using highly reactive Isothiazol-3-one biocides and Ionic liquids are presented. It was the aim of these studies to get a deeper knowledge on the hazard potential of the selected substances by applying a mode of action based testing strategy and a flexible toxicological and ecotoxicological test battery. Summarising the results obtained from both case studies, it could be shown that the applied tiered and mode of action based testing strategy in combination with a flexible test battery was a valuable tool to identify and screen modes of toxic action as well as structure-activity relationships of reactive and non-reactive chemicals. The identified hazard potentials of isothiazol-3-one biocides and ionic liquids reduced the uncertainty of their toxicological and ecotoxicological impacts and thus the obtained results can lead to a refined multidimensional risk assessment of these substances. Additionally, the uncovered structure-activity relationships can be used to design more inherently safer and hence sustainable biocides and ionic liquids. The used T-SAR based approach could be identified as a promising candidate for the above cited "intelligent testing strategies" in the hazard assessment of environmentally relevant chemicals.