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19. In silicomodelling for predicting the cationic hydrophobicity and cytotoxicity of ionic liquids towards theLeukemiarat cell line,Vibrio fischeriandScenedesmus vacuolatusbased on molecular interaction potentials of ions

Author

Cho, C.-W., primary, Ranke, J., additional, Arning, J., additional, Thöming, J., additional, Preiss, U., additional, Jungnickel, C., additional, Diedenhofen, M., additional, Krossing, I., additional, and Stolte, S., additional

Published
2013
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20. Theoretical analysis of anion exclusion and diffusive transport through platy-clay soils

Author

Smith, D., Pivonka, P., Jungnickel, C., Fityus, S., Smith, D., Pivonka, P., Jungnickel, C., and Fityus, S.

Abstract

Diffusive transport through geosynthetic clay liners and engineered compacted clay landfill liners is the primary mechanism for mass transport from well-engineered modern landfills. For this reason, accurate estimates of diffusion coefficients for clay soils are essential for the design of engineered liner systems. A long-standing theoretical problem is the role of anion exclusion on the estimation of diffusion coefficients for ionic solutes migrating through charged porous media. This paper describes the steady-state solution of a fully coupled set of transport equations modeling ion movement through a permanently charged platy-clay soil. The microscale analysis takes into account the actual diffusion coefficient for each ion species, ion-pairing (as required by electroneutrality of the solution), as well as anion exclusion and cation inclusion, arising from the permanent charge on clay particles. To render the problem tractable, the theoretical analysis focuses on an extremely small two-dimensional unit cell in an ideal, saturated, two-phase porous medium. The analysis presented here is limited to a particular geometrical example, but this example is sufficiently general for characteristic behaviours of systems of this kind to be identified. Most importantly, new insight is gained into the mechanism of ion migration through a charged platy-clay soil. The numerical results obtained from this study show that the identification of macroscopic transport quantities such as effective diffusion coefficients and membrane potentials from diffusion cell tests using standard diffusion theory only hold for a specific system. While ion exclusion behaviours are often referred to in the literature, as far as the authors are aware there has been no previous detailed microscale analysis of their role in steady-state diffusion through a charged platy-clay soil.

Published
2004

23. In silico modelling for predicting the cationic hydrophobicity and cytotoxicity of ionic liquids towards the Leukemia rat cell line, Vibrio fischeri and Scenedesmus vacuolatus based on molecular interaction potentials of ions.

Author

Cho, C. -W., Ranke, J., Arning, J., Thöming, J., Preiss, U., Jungnickel, C., Diedenhofen, M., Krossing, I., and Stolte, S.

Subjects
HYDROPHOBIC compounds, PREDICTION models, TOXICOLOGY, IONIC liquids, LEUKEMIA, CELL lines, IPHIGENIA (Mollusks), SCENEDESMUS, MOLECULAR interactions, IONS
Abstract

In this study we present prediction models for estimating in silico the cationic hydrophobicity and the cytotoxicity (log [1/EC50]) of ionic liquids (ILs) towards the Leukemia rat cell line (IPC-81), the marine bacterium Vibrio fischeri and the limnic green algae Scenedesmus vacuolatus using linear free energy relationship (LFER) descriptors computed by COSMO calculations. The LFER descriptors used for the prediction model (i.e. excess molar refraction (E), dipolarity/polarizability (S), hydrogen-bonding acidity (A), hydrogen-bonding basicity (B) and McGowan volume (V)) were calculated using sub-descriptors (sig2, sig3, HBD3, HB A4, MR, and volume) derived from COSMO RS, COSMO and OBPROP. With the combination of two solute descriptors (B, V) of the cation we were able to predict cationic hydrophobicity values (log k0) with r² = 0.987 and standard error (SE) = 0.139 log units. By using the calculated log k0 values, we were able to deduce a linear toxicity prediction model. In the second prediction study for the cytotoxicity of ILs, analysis of descriptor sensitivity helped us to determine that the McGowan volume (V) terms of the cation was the most important predictor of cytotoxicity and to simplify prediction models for cytotoxicity of ILs towards the IPC-81 (r² of 0.778, SE of 0.450 log units), Vibrio fischeri (r² of 0.762, SE of 0.529 log units) and Scenedesmus vacuolatus {r of 0.776, SE of 0.825 log units). The robustness and predictivity of the two models for IPC-81 and Vibrio fischeri were checked by comparing the calculated SE and r~ (coefficient of determination) values of the test set. [ABSTRACT FROM AUTHOR]

Published
2013
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24. Bile conjugation and its effect on in vitro lipolysis of emulsions.

Author

Łozińska N, Maldonado-Valderrama J, Del Castillo-Santaella T, Zhou Y, Martysiak-Żurowska D, Lu Y, and Jungnickel C

Subjects
Emulsions, Lipolysis, Chemical Phenomena, Bile Acids and Salts, Bile, Linoleic Acid
Abstract

Bile Salts (BS) are responsible for stimulating lipid digestion in our organism. Gut microbiota are responsible for the deconjugation process of primary conjugated to secondary unconjugated BS. We use two structurally distinct BS and characterize the rate of lipolysis as a compound parameter. A static in-vitro digestion model as well as meta-analysis of literature data has been performed to determine the most influential factors affecting the lipid digestion process. The results demonstrate that lipolysis of emulsions using conjugated BS (NaTC, FFA = 60.0 %, CMC in SIF = 5.58 mM, MSR of linoleic acid = 0.21, rate of adsorption = -0.057 mN/m.s) enhances the release of FFA compared to deconjugated BS (NaDC, FFA = 49.5 %, CMC in SIF = 2.49 mM, MSR of linoleic acid = 0.16 rate of adsorption = -0.064 mN/m.s). These results indicate that conjugation plays an important role in controlling the rate of lipolysis in our organism which can be in turn, tuned by the microflora composition of our gut, ultimately controlling the rate of deconjugation of the BS., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: [Julia MALDONADO-VALDERRAMA reports financial support was provided by Ministry for Science and Innovation, Spain. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.]., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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25. Microbe cultivation guidelines to optimize rhamnolipid applications.

Author

Kłosowska-Chomiczewska IE, Macierzanka A, Parchem K, Miłosz P, Bladowska S, Płaczkowska I, Hewelt-Belka W, and Jungnickel C

Subjects
Carbon, Glycolipids, Surface-Active Agents
Abstract

In the growing landscape of interest in natural surfactants, selecting the appropriate one for specific applications remains challenging. The extensive, yet often unsystematized, knowledge of microbial surfactants, predominantly represented by rhamnolipids (RLs), typically does not translate beyond the conditions presented in scientific publications. This limitation stems from the numerous variables and their interdependencies that characterize microbial surfactant production. We hypothesized that a computational recipe for biosynthesizing RLs with targeted applicational properties could be developed from existing literature and experimental data. We amassed literature data on RL biosynthesis and micellar solubilization and augmented it with our experimental results on the solubilization of triglycerides (TGs), a topic underrepresented in current literature. Utilizing this data, we constructed mathematical models that can predict RL characteristics and solubilization efficiency, represented as logP RL  = f(carbon and nitrogen source, parameters of biosynthesis) and logMSR = f(solubilizate, rhamnolipid (e.g. logP RL ), parameters of solubilization), respectively. The models, characterized by robust R 2 values of respectively 0.581-0.997 and 0.804, enabled the ranking of descriptors based on their significance and impact-positive or negative-on the predicted values. These models have been translated into ready-to-use calculators, tools designed to streamline the selection process for identifying a biosurfactant optimally suited for intended applications., (© 2024. The Author(s).)

Published
2024
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26. Analysis of the Factors Affecting Static In Vitro Pepsinolysis of Food Proteins.

Author

Maeda N, Dulko D, Macierzanka A, and Jungnickel C

Subjects
Animals, Digestion, Emulsions chemistry, Food Analysis, Hydrogen-Ion Concentration, Hydrolysis, Milk chemistry, Protein Hydrolysates, Dietary Proteins chemistry, Pepsin A chemistry
Abstract

In this meta-analysis, we collected 58 publications spanning the last seven decades that reported static in vitro protein gastric digestion results. A number of descriptors of the pepsinolysis process were extracted, including protein type; pepsin activity and concentration; protein concentration; pH; additives; protein form (e.g., 'native', 'emulsion', 'gel', etc.); molecular weight of the protein; treatment; temperature; and half-times (HT) of protein digestion. After careful analysis and the application of statistical techniques and regression models, several general conclusions could be extracted from the data. The protein form to digest the fastest was 'emulsion'. The rate of pepsinolysis in the emulsion was largely independent of the protein type, whereas the gastric digestion of the native protein in the solution was strongly dependent on the protein type. The pepsinolysis was shown to be strongly dependent on the structural components of the proteins digested-specifically, β-sheet-inhibited and amino acid, leucine, methionine, and proline-promoted digestion. Interestingly, we found that additives included in the digestion mix to alter protein hydrolysis had, in general, a negligible effect in comparison to the clear importance of the protein form or additional treatment. Overall, the findings allowed for the targeted creation of foods for fast or slow protein digestion, depending on the nutritional needs.

Published
2022
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27. Importance of Bile Composition for Diagnosis of Biliary Obstructions.

Author

Krupa Ł, Staroń R, Dulko D, Łozińska N, Mackie AR, Rigby NM, Macierzanka A, Markiewicz A, and Jungnickel C

Subjects
Aged, Alanine Transaminase blood, Aspartate Aminotransferases blood, Bilirubin blood, Cholestasis blood, Cholesterol blood, Humans, ROC Curve, Bile Acids and Salts chemistry, Cholestasis diagnosis
Abstract

Determination of the cause of a biliary obstruction is often inconclusive from serum analysis alone without further clinical tests. To this end, serum markers as well as the composition of bile of 74 patients with biliary obstructions were determined to improve the diagnoses. The samples were collected from the patients during an endoscopic retrograde cholangiopancreatography (ERCP). The concentration of eight bile salts, specifically sodium cholate, sodium glycocholate, sodium taurocholate, sodium glycodeoxycholate, sodium chenodeoxycholate, sodium glycochenodeoxycholate, sodium taurodeoxycholate, and sodium taurochenodeoxycholate as well as bile cholesterol were determined by HPLC-MS. Serum alanine aminotransferase (ALT), aspartate transaminase (AST), and bilirubin were measured before the ERCP. The aim was to determine a diagnostic factor and gain insights into the influence of serum bilirubin as well as bile salts on diseases. Ratios of conjugated/unconjugated, primary/secondary, and taurine/glycine conjugated bile salts were determined to facilitate the comparison to literature data. Receiver operating characteristic (ROC) curves were determined, and the cut-off values were calculated by determining the point closest to (0,1). It was found that serum bilirubin was a good indicator of the type of biliary obstruction; it was able to differentiate between benign obstructions such as choledocholithiasis (at the concentration of >11 µmol/L) and malignant changes such as pancreatic neoplasms or cholangiocarcinoma (at the concentration of >59 µmol/L). In addition, it was shown that conjugated/unconjugated bile salts confirm the presence of an obstruction. With lower levels of conjugated/unconjugated bile salts the possibility for inflammation and, thus, neoplasms increase.

Published
2021
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28. Importance of Conjugation of the Bile Salt on the Mechanism of Lipolysis.

Author

Łozińska N and Jungnickel C

Subjects
Humans, Micelles, Surface Properties, Bile Acids and Salts chemistry, Lipolysis
Abstract

We aim to advance the discussion on the significance of the conjugation of bile salts (BS) in our organism. We hypothesize that conjugation influences the rate of lipolysis. Since the rate of lipolysis is a compound parameter, we compare the effect of conjugation on four surface parameters, which contribute to the rate. Since deconjugation is due to gut microbiota, we hypothesize that microbiota may affect the rate of lipolysis. A meta-analysis of literature data of critical micelle concentration, β, aggregation number, and molar solubilization ratio has been performed for the first time. In addition, critical micelle concentration (CMC), interfacial tension, and lipolysis rate measurements were performed. It was found that the unconjugated BS in mixed micelles increases the antagonism between the BS, therefore, increasing the CMC. This correlated with the effect of unconjugated BS on the solubilization capacity of mixed micelles. The collected literature information indicates that the role of the BS and its conjugation in our organism is a key factor influencing the functioning of our organism, where too high levels of unconjugated BS may lead to malabsorption of fat-soluble nutrients. The experimental lipolysis results irrevocably showed that conjugation is a significant factor influencing the rate.

Published
2021
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29. Towards Rational Biosurfactant Design-Predicting Solubilization in Rhamnolipid Solutions.

Author

Kłosowska-Chomiczewska IE, Kotewicz-Siudowska A, Artichowicz W, Macierzanka A, Głowacz-Różyńska A, Szumała P, Mędrzycka K, Hallmann E, Karpenko E, and Jungnickel C

Subjects
Micelles, Glycolipids chemistry, Solubility, Surface-Active Agents chemistry
Abstract

The efficiency of micellar solubilization is dictated inter alia by the properties of the solubilizate, the type of surfactant, and environmental conditions of the process. We, therefore, hypothesized that using the descriptors of the aforementioned features we can predict the solubilization efficiency, expressed as molar solubilization ratio (MSR). In other words, we aimed at creating a model to find the optimal surfactant and environmental conditions in order to solubilize the substance of interest (oil, drug, etc.). We focused specifically on the solubilization in biosurfactant solutions. We collected data from literature covering the last 38 years and supplemented them with our experimental data for different biosurfactant preparations. Evolutionary algorithm (EA) and kernel support vector machines (KSVM) were used to create predictive relationships. The descriptors of biosurfactant (logP BS , measure of purity), solubilizate (logP sol , molecular volume), and descriptors of conditions of the measurement (T and pH) were used for modelling. We have shown that the MSR can be successfully predicted using EAs, with a mean R 2 val of 0.773 ± 0.052. The parameters influencing the solubilization efficiency were ranked upon their significance. This represents the first attempt in literature to predict the MSR with the MSR calculator delivered as a result of our research.

Published
2021
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30. Transdermal transport of collagen and hyaluronic acid using water in oil microemulsion.

Author

Szumała P, Jungnickel C, Kozłowska-Tylingo K, Jacyna B, and Cal K

Subjects
Administration, Cutaneous, Collagen administration & dosage, Drug Liberation, Emulsions, Hyaluronic Acid administration & dosage, Membranes, Artificial, Myristates chemistry, Skin Absorption, Skin Aging, Solubility, Surface-Active Agents chemistry, Water chemistry, Collagen chemistry, Hyaluronic Acid chemistry
Abstract

Collagen and hyaluronic acid (HA) are biopolymers that affect the appearance and condition of the skin. Delivery of these compounds into the skin is highly challenging since have a number of disadvantageous properties, such as high molecular weight and hydrophilicity. Here, we evaluated the transdermal penetration of low and high molecular weight collagen and HA from microemulsions. A number of microemulsion formulations, differing in the content of polymers and surfactants (i.e. penetration promoters), were used for the permeation study. In addition, a correlation was made between the composition of these microemulsions and the polymers transport efficiency. The results indicate that, microemulsions enable transdermal permeation of collagen and HA. The concentration of polymers and the solubilization capacity of microemulsions had the greatest influence on the permeation. Surprisingly, the molecular weight of polymers and the content of other components affected the size of microemulsion particles, and thus these parameters had an indirect influence on the permeation process. This study demonstrated therefore the potential therapeutic use of microemulsion with collagen and HA in improving and regenerating the barrier of aged or diseased skin., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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31. Bile salts in digestion and transport of lipids.

Author

Macierzanka A, Torcello-Gómez A, Jungnickel C, and Maldonado-Valderrama J

Subjects
Animals, Bile Acids and Salts chemistry, Biological Transport, Emulsifying Agents chemistry, Emulsifying Agents metabolism, Humans, Bile Acids and Salts metabolism, Lipids chemistry, Lipolysis
Abstract

Because of their unusual chemical structure, bile salts (BS) play a fundamental role in intestinal lipid digestion and transport. BS have a planar arrangement of hydrophobic and hydrophilic moieties, which enables the BS molecules to form peculiar self-assembled structures in aqueous solutions. This molecular arrangement also has an influence on specific interactions of BS with lipid molecules and other compounds of ingested food and digestive media. Those comprise the complex scenario in which lipolysis occurs. In this review, we discuss the BS synthesis, composition, bulk interactions and mode of action during lipid digestion and transport. We look specifically into surfactant-related functions of BS that affect lipolysis, such as interactions with dietary fibre and emulsifiers, the interfacial activity in facilitating lipase and colipase anchoring to the lipid substrate interface, and finally the role of BS in the intestinal transport of lipids. Unravelling the roles of BS in the processing of lipids in the gastrointestinal tract requires a detailed analysis of their interactions with different compounds. We provide an update on the most recent findings concerning two areas of BS involvement: lipolysis and intestinal transport. We first explore the interactions of BS with various dietary fibres and food emulsifiers in bulk and at interfaces, as these appear to be key aspects for understanding interactions with digestive media. Next, we explore the interactions of BS with components of the intestinal digestion environment, and the role of BS in displacing material from the oil-water interface and facilitating adsorption of lipase. We look into the process of desorption, solubilisation of lipolysis, products and formation of mixed micelles. Finally, the BS-driven interactions of colloidal particles with the small intestinal mucus layer are considered, providing new findings for the overall assessment of the role of BS in lipid digestion and intestinal transport. This review offers a unique compilation of well-established and most recent studies dealing with the interactions of BS with food emulsifiers, nanoparticles and dietary fibre, as well as with the luminal compounds of the gut, such as lipase-colipase, triglycerides and intestinal mucus. The combined analysis of these complex interactions may provide crucial information on the pattern and extent of lipid digestion. Such knowledge is important for controlling the uptake of dietary lipids or lipophilic pharmaceuticals in the gastrointestinal tract through the engineering of novel food structures or colloidal drug-delivery systems., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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32. IL-17C-mediated innate inflammation decreases the response to PD-1 blockade in a model of Kras-driven lung cancer.

Author

Ritzmann F, Jungnickel C, Vella G, Kamyschnikow A, Herr C, Li D, Menger MM, Angenendt A, Hoth M, Lis A, Bals R, and Beisswenger C

Subjects
Animals, B7-H1 Antigen biosynthesis, B7-H1 Antigen genetics, CD8-Positive T-Lymphocytes immunology, Carcinoma, Non-Small-Cell Lung etiology, Carcinoma, Non-Small-Cell Lung immunology, Cell Line, Tumor, Cytokines physiology, Female, Genes, ras, Humans, Interleukin-17 deficiency, Interleukin-17 genetics, Interleukin-17 pharmacology, Lung Neoplasms etiology, Lung Neoplasms immunology, Mice, Mice, Inbred C57BL, Mice, Knockout, Molecular Targeted Therapy, Neoplasm Proteins biosynthesis, Neoplasm Proteins genetics, Neutrophils physiology, Programmed Cell Death 1 Receptor biosynthesis, Programmed Cell Death 1 Receptor genetics, Pulmonary Disease, Chronic Obstructive complications, Pulmonary Disease, Chronic Obstructive immunology, Recombinant Proteins pharmacology, Tumor Microenvironment, Carcinoma, Non-Small-Cell Lung drug therapy, Immunity, Innate, Interleukin-17 physiology, Lung Neoplasms drug therapy, Neoplasm Proteins antagonists & inhibitors, Programmed Cell Death 1 Receptor antagonists & inhibitors, Proto-Oncogene Proteins p21(ras) physiology
Abstract

Chronic obstructive pulmonary disease (COPD) is associated with neutrophilic lung inflammation and CD8 T cell exhaustion and is an important risk factor for the development of non-small cell lung cancer (NSCLC). The clinical response to programmed cell death-1 (PD-1) blockade in NSCLC patients is variable and likely affected by a coexisting COPD. The pro-inflammatory cytokine interleukin-17C (IL-17C) promotes lung inflammation and is present in human lung tumors. Here, we used a Kras-driven lung cancer model to examine the function of IL-17C in inflammation-promoted tumor growth. Genetic ablation of Il-17c resulted in a decreased recruitment of inflammatory cells into the tumor microenvironment, a decreased expression of tumor-promoting cytokines (e.g. interleukin-6 (IL-6)), and a reduced tumor proliferation in the presence of Haemophilus influenzae- (NTHi) induced COPD-like lung inflammation. Chronic COPD-like inflammation was associated with the expression of PD-1 in CD8 lymphocytes and the membrane expression of the programmed death ligand (PD-L1) independent of IL-17C. Tumor growth was decreased in Il-17c deficient mice but not in wildtype mice after anti-PD-1 treatment. Our results suggest that strategies targeting innate immune mechanisms, such as blocking of IL-17C, may improve the response to anti-PD-1 treatment in lung cancer patients.

Published
2019
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33. Three-dimensional ultrashort echo time MRI and Short T 2 images generated from subtraction for determination of tumor burden in lung cancer: Preclinical investigation in transgenic mice.

Author

Müller A, Jagoda P, Fries P, Gräber S, Bals R, Buecker A, Jungnickel C, and Beisswenger C

Subjects
Animals, Female, Mice, Mice, Transgenic, Neoplasms, Experimental diagnostic imaging, Subtraction Technique, Tumor Burden, Image Interpretation, Computer-Assisted methods, Imaging, Three-Dimensional methods, Lung Neoplasms diagnostic imaging, Magnetic Resonance Imaging methods
Abstract

Purpose: To investigate the potential of 3D ultrashort echo time MRI and short T 2 images generated by subtraction for determination of total tumor burden in lung cancer., Methods: As an animal model of spontaneously developing non-small cell lung cancer, the K-rasLA1 transgenic mouse was used. Three-dimensional MR imaging was performed with radial k-space acquisition and echo times of 20 µs and 1 ms. For investigation of the short T 2 component in the recorded signal, subtraction images were generated from these data sets and used for consensus identification of tumors. Next, manual segmentation was performed on all MR images by two independent investigators. MRI data were compared with the results from histologic investigations and among the investigators., Results: Tumor number and total tumor burden from imaging experiments correlated strongly with the results of histologic investigations. Intra- and interuser comparison showed highest correlations between the individual measurements for ultra-short TE MRI., Conclusions: Three-dimensional MRI protocols facilitate accurate tumor identification in mice harboring lung tumors. Ultrashort TE MRI is the superior imaging strategy when investigating lung tumors of miscellaneous size with 3D MR imaging strategies. Magn Reson Med 79:1052-1060, 2018. © 2017 International Society for Magnetic Resonance in Medicine., (© 2017 International Society for Magnetic Resonance in Medicine.)

Published
2018
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34. Forbidden Chemistry: Two-Photon Pathway in [2+2] Cycloaddition of Maleimides.

Author

Tsurkan MV, Jungnickel C, Schlierf M, and Werner C

Abstract

Two-photon excitation provides high spatial resolution in three dimensions of the corresponding chemical or physical processes, allowing submicrometer structuring in stereolithography and three-dimensional (3D) microfabrication. While studying two-photon structuring applications, we observed an undescribed phenomenon in photochemistry that dictates reactivity of maleimide groups in two-photon mode. A low-absorbance transition formerly ignored in classical photochemistry has been found for maleimides. This transition was assigned to symmetry-breaking donor-acceptor complex formation, which revealed a formally forbidden pathway in [2+2] cycloaddition reactions of maleimide moieties. This synthetic pathway allowed for the creation of hydrogel materials under physiological conditions at low laser excitation energy (0.1 J/cm 2 at 800 nm) without the use of photoinitiators, which makes it truly two-photon click chemistry.

Published
2017
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35. Enhanced targeting of invasive glioblastoma cells by peptide-functionalized gold nanorods in hydrogel-based 3D cultures.

Author

Gonçalves DPN, Rodriguez RD, Kurth T, Bray LJ, Binner M, Jungnickel C, Gür FN, Poser SW, Schmidt TL, Zahn DRT, Androutsellis-Theotokis A, Schlierf M, and Werner C

Subjects
Cell Line, Tumor, Humans, Doxorubicin chemistry, Doxorubicin pharmacology, Drug Delivery Systems, Glioblastoma drug therapy, Glioblastoma metabolism, Glioblastoma pathology, Gold chemistry, Gold pharmacology, Hydrogels chemistry, Nanotubes chemistry, Peptides chemistry, Peptides pharmacology
Abstract

Cancer stem cells (CSCs) are responsible for drug resistance, tumor recurrence, and metastasis in several cancer types, making their eradication a primary objective in cancer therapy. Glioblastoma Multiforme (GBM) tumors are usually composed of a highly infiltrating CSC subpopulation, which has Nestin as a putative marker. Since the majority of these infiltrating cells are able to elude conventional therapies, we have developed gold nanorods (AuNRs) functionalized with an engineered peptide capable of specific recognition and selective eradication of Nestin positive infiltrating GBM-CSCs. These AuNRs generate heat when irradiated by a near-infrared laser, and cause localized cell damage. Nanoparticle internalization assays performed with GBM-CSCs or Nestin negative cells cultured as two-dimensional (2D) monolayers or embedded in three-dimensional (3D) biodegradable-hydrogels of tunable mechanical properties, revealed that the AuNRs were mainly internalized by GBM-CSCs, and not by Nestin negative cells. The AuNRs were taken up via energy-dependent and caveolae-mediated endocytic mechanisms, and were localized inside endosomes. Photothermal treatments resulted in the selective elimination of GBM-CSCs through cell apoptosis, while Nestin negative cells remained viable. Results also indicated that GBM-CSCs embedded in hydrogels were more resistant to AuNR photothermal treatments than when cultured as 2D monolayers. In summary, the combination of our engineered AuNRs with our tunable hydrogel system has shown the potential to provide an in vitro platform for the evaluation and screening of AuNR-based cancer therapeutics, leading to a substantial advancement in the application of AuNRs for targeted GBM-CSC therapy., Statement of Significance: There is an urgent need for reliable and efficient therapies for the treatment of Glioblastoma Multiforme (GBM), which is currently an untreatable brain tumor form with a very poor patient survival rate. GBM tumors are mostly comprised of cancer stem cells (CSCs), which are responsible for tumor reoccurrence and therapy resistance. We have developed gold nanorods functionalized with an engineered peptide capable of selective recognition and eradication of GBM-CSCs via heat generation by nanorods upon NIR irradiation. An in vitro evaluation of nanorod therapeutic activities was performed in 3D synthetic-biodegradable hydrogel models with distinct biomechanical cues, and compared to 2D cultures. Results indicated that cells cultured in 3D were more resistant to photothermolysis than in 2D systems., (Copyright © 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2017
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36. Ultimate biodegradability and ecotoxicity of orally administered antidiabetic drugs.

Author

Markiewicz M, Jungnickel C, Stolte S, Białk-Bielińska A, Kumirska J, and Mrozik W

Subjects
Administration, Oral, Animals, Hypoglycemic Agents administration & dosage, Hypoglycemic Agents toxicity, Models, Theoretical, Quantitative Structure-Activity Relationship, Wastewater chemistry, Water Pollutants, Chemical toxicity, Biodegradation, Environmental, Daphnia drug effects, Ecotoxicology, Hypoglycemic Agents metabolism, Water Pollutants, Chemical metabolism
Abstract

Hypoglycaemic pharmaceuticals are recently more and more frequently detected in the environment. In our previous study, we have shown that even though many of them undergo significant primary degradation some are transformed to stable products or undergo such transformation that a large part of the structure is still preserved. One of the main routes of elimination from wastewaters or surface waters is biodegradation and a lack thereof leads to accumulation in the environment. Within this work we tested the ultimate biodegradability of six oral antidiabetics: metformin and its main metabolite guanylurea, acarbose, glibenclamide, gliclazide, glimepiride and repaglinide. We also compared the experimental results obtained in this and accompanying work with models designed to predict biodegradability and showed that these models are only moderately successful. Additionally, we examined these compounds in acute Daphnia magna test to check if they might pose an ecotoxicological threat. Combining the results of biodegradability and toxicity tests allows a preliminary assessment of their potential environmental impact., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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37. Nontypeable Haemophilus influenzae-Promoted Proliferation of Kras-Induced Early Adenomatous Lesions Is Completely Dependent on Toll-Like Receptor Signaling.

Author

Jungnickel C, Schnabel PA, Bohle R, Wiewrodt R, Herr C, Bals R, and Beisswenger C

Subjects
Adenocarcinoma physiopathology, Animals, Cell Proliferation physiology, Haemophilus Infections physiopathology, Haemophilus influenzae physiology, Lung Neoplasms physiopathology, Mice, Neutrophils physiology, Pulmonary Disease, Chronic Obstructive virology, Signal Transduction physiology, Toll-Like Receptor 2 deficiency, Toll-Like Receptor 4 deficiency, ras Proteins metabolism, Genes, ras physiology, Pulmonary Disease, Chronic Obstructive physiopathology, Toll-Like Receptor 2 physiology, Toll-Like Receptor 4 physiology
Abstract

Chronic obstructive pulmonary disease (COPD) is a risk factor for lung cancer. COPD is characterized by chronic airway inflammation and lung infections. The airways of patients with COPD are frequently colonized with bacteria [eg, nontypeable Haemophilus influenzae (NTHi)] that cause pulmonary inflammation and exacerbations. Pulmonary adenocarcinomas are frequently associated with an activating mutation in the KRAS gene. We determined the function of Toll-like receptor (TLR) signaling on the progression of Kras-induced early adenomatous lesions in the lung. Wild-type (WT) mice and mice doubly deficient in Tlr-2 and -4 (Tlr2/4 -/- ), both with an oncogenic Kras allele in lung epithelium, were exposed to NTHi for 4 weeks. Exposure to NTHi resulted in increased tumor proliferation and growth in WT mice, but not in Tlr2/4 -/- mice. Alveolar adenomatous hyperplasia and adenocarcinoma were significantly increased in WT mice compared with Tlr2/4 -/- mice. The average size of tumors was significantly larger in WT mice, whereas there was no difference in the number of alveolar lesions between WT and Tlr2/4 -/- mice. NTHi-induced pulmonary neutrophilic inflammation and tumor-associated neutrophils were reduced in Tlr2/4 -/- mice. Thus, subsequent to a driver mutation, NTHi-induced inflammation promotes proliferation of early adenomatous lesions in a TLR-dependent manner., (Copyright © 2017 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published
2017
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38. Primary degradation of antidiabetic drugs.

Author

Markiewicz M, Jungnickel C, Stolte S, Białk-Bielińska A, Kumirska J, and Mrozik W

Subjects
Acarbose metabolism, Biodegradation, Environmental, Urea metabolism, Hypoglycemic Agents metabolism, Metformin metabolism, Water Pollutants, Chemical metabolism
Abstract

Type 2 diabetes is a chronic disease affecting a large portion of the world population and is treated by orally administered drugs. Since these drugs are often taken in high doses and are excreted unchanged or partially metabolised many of them are nowadays detected in surface waters or wastewater treatment plants effluents. Unmetabolised antidiabetics or some of their transformation products retain their pharmacological activity, therefore their presence in the environment is highly undesired. One of the main routes of elimination from wastewaters or surface waters is biodegradation. Within this work we tested primary biodegradation of: metformin and its metabolite guanylurea, acarbose, glibenclamide, gliclazide and glimepiride. We also inspected what might be the extent of the degradation by examining the products formed during the degradation using liquid chromatography coupled to tandem mass spectrometry. Transformation of diabetes staple drug metformin to dead-end product guanylurea was generally confirmed. An alternative, though rather minor pathway leading to complete mineralisation was also found. Complete primary degradation was observed for acarbose, glibenclamide and glimepiride whereas gliclazide was shown to be resistant to biodegradation. These results allow a preliminary assessment of environmental persistency of a very important group of pharmaceuticals and show need for implementing monitoring programs., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2017
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39. Bottom-Up Structuring and Site-Selective Modification of Hydrogels Using a Two-Photon [2+2] Cycloaddition of Maleimide.

Author

Jungnickel C, Tsurkan MV, Wogan K, Werner C, and Schlierf M

Abstract

Creating hydrogel systems to mimic the extracellular matrix is often limited by their static nature. The use of a two-photon [2+2] cycloaddition of maleimide groups to structure surfaces, to create hydrogels, and add 3D modifications with sub-micrometer precision is reported. The absence of photoinitiators and usage of near-infrared light is promising for future in vivo studies., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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40. IL-17A attracts inflammatory cells in murine lung infection with P. aeruginosa.

Author

Wonnenberg B, Jungnickel C, Honecker A, Wolf L, Voss M, Bischoff M, Tschernig T, Herr C, Bals R, and Beisswenger C

Subjects
Animals, Cell Movement, Cells, Cultured, Humans, Immunity genetics, Interleukin-17 genetics, Keratinocytes immunology, Mice, Mice, Inbred C57BL, Mice, Knockout, Molecular Targeted Therapy, Pneumococcal Infections therapy, Pseudomonas Infections therapy, Respiratory Distress Syndrome therapy, Species Specificity, Interleukin-17 metabolism, Pneumococcal Infections immunology, Pneumonia immunology, Pseudomonas Infections immunology, Pseudomonas aeruginosa immunology, Respiratory Distress Syndrome immunology, Streptococcus pneumoniae immunology
Abstract

IL-17A-dependent immunity is of importance in the protection against extracellular bacterial pathogens. However, IL-17A is also suggested to mediate the pathogenesis of lung diseases, such as acute respiratory distress syndrome. Here, we studied the role of IL-17A in a mouse model of acute pneumonia. IL-17A mediated the expression of keratinocyte-derived chemokine (KC) and the recruitment of inflammatory cells in mice infected with a sub-lethal dose of Pseudomonas aeruginosa. IL-17A deficiency protected mice from lethal P. aeruginosa lung infection. A sub-lethal infection with Streptococcus pneumoniae resulted in increased bacterial burden associated with increased pulmonary inflammation. Thus, the type of infectious bacteria seemed to influence the way in which IL-17A functions during pulmonary infection. Reducing pulmonary inflammation by targeting IL-17A may be a therapeutic option in acute P. aeruginosa pneumonia.

Published
2016
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41. IL-17A-mediated expression of epithelial IL-17C promotes inflammation during acute Pseudomonas aeruginosa pneumonia.

Author

Wolf L, Sapich S, Honecker A, Jungnickel C, Seiler F, Bischoff M, Wonnenberg B, Herr C, Schneider-Daum N, Lehr CM, Bals R, and Beisswenger C

Subjects
Alveolar Epithelial Cells pathology, Animals, Mice, Inbred C57BL, Mice, Knockout, Microbial Viability, Neutrophil Infiltration, Pneumonia complications, Pneumonia pathology, Survival Analysis, Alveolar Epithelial Cells metabolism, Interleukin-17 metabolism, Pneumonia metabolism, Pneumonia microbiology, Pseudomonas aeruginosa physiology
Abstract

Lung epithelial cells are suggested to promote pathogen-induced pulmonary inflammation by the release of chemokines, resulting in enhanced recruitment of circulating leukocytes. Recent studies have shown that the interleukin-17C (IL-17C) regulates innate immune functions of epithelial cells in an autocrine manner. The aim of this study was to investigate the contribution of IL-17C to pulmonary inflammation in a mouse model of acute Pseudomonas aeruginosa pneumonia. Infection with P. aeruginosa resulted in an increased expression of IL-17C in lung tissue of wild-type mice. Numbers of neutrophils and the expression of the neutrophil-recruiting chemokines keratinocyte-derived chemokine and macrophage inflammatory protein 2 were significantly decreased in lungs of IL-17C-deficient (IL-17C -/- ) mice infected with P. aeruginosa at 24 h. Systemic concentrations of interleukin-6 (IL-6) were significantly decreased in infected IL-17C -/- mice at 24 h and the survival of IL-17C -/- mice was significantly increased at 48 h. The expression of IL-17C was reduced in infected mice deficient for interleukin-17A (IL-17A), whereas pulmonary concentrations of IL-17A were not affected by the deficiency for IL-17C. Stimulation of primary alveolar epithelial cells with IL-17A resulted in a significantly increased expression of IL-17C in vitro. Our data suggest that IL-17A-mediated expression of epithelial IL-17C amplifies the release of chemokines by epithelial cells and thereby contributes to the recruitment of neutrophils and systemic inflammation during acute P. aeruginosa pneumonia., (Copyright © 2016 the American Physiological Society.)

Published
2016
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42. Protection and viability of fruit seeds oils by nanostructured lipid carrier (NLC) nanosuspensions.

Author

Krasodomska O, Paolicelli P, Cesa S, Casadei MA, and Jungnickel C

Subjects
Emulsions chemistry, Particle Size, Surface Properties, Thermodynamics, Drug Carriers chemistry, Fatty Acids, Unsaturated chemistry, Fruit chemistry, Nanostructures chemistry, Plant Oils chemistry, Seeds chemistry
Abstract

In this paper, we focused on the development of nanostructured lipid carriers (NLCs) for dermal application. The NLC matrix was designed as a protective reservoir of biological active compounds that naturally occur in domestic fruit seed oils. Over the years, emulsions, as a popular physicochemical form of personal care products, were refined in order to obtain the best possible penetration into the skin of any bioactive compound introduced in the formulation, such as polyunsaturated fatty acids (PUFAs). In fact, the bioactive components are useful only if they are able to penetrate the skin unchanged. Therefore, an alternate way to deliver naturally occurring PUFAs is needed. NLCs present a novel delivery and protection system for the PUFAs. The cold pressed fruit seed oils obtained from waste material were used in this paper: blackcurrant, blackberry, raspberry, strawberry and plum. Thermodynamic (DSC) and structural techniques ((1)H NMR) were applied in order to characterize the obtained systems in terms of seed oil incorporation into the NLC, and oxidative stability tests were used to confirm the protective quality of the systems. During the formulation optimization process the most stable nanosuspension with the best seed oil incorporation was a mixture of 4% nonionic emulsifiers, 88% water and 6% lipids with a ratio of 6:2, wax:oil. The oxidative stability tests showed that the NLC was an effective method of protection of the PUFAs., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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43. Modeling the influence of salts on the critical micelle concentration of ionic surfactants.

Author

Preiss UP, Eiden P, Luczak J, and Jungnickel C

Abstract

We show for the first time that a phenomenological, augmented volume-based thermodynamics (aVBT) model is capable to predict the critical micelle concentrations of ionic surfactants, including ionic liquids, with added salts. The model also adjusts for the type of salt added by including its molecular volume, which might form a connection to the Hofmeister effect. The other physico-chemically relevant quantities included in the model include surface area and solvation enthalpies., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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44. Ionic liquid assisted dissolution of dissolved organic matter and PAHs from soil below the critical micelle concentration.

Author

Markiewicz M, Jungnickel C, and Arp HP

Subjects
Adsorption, Carbon analysis, Micelles, Soil chemistry, Solubility, Borates chemistry, Imidazoles chemistry, Ionic Liquids chemistry, Polycyclic Aromatic Hydrocarbons chemistry, Soil Pollutants chemistry
Abstract

Increased use and production of ionic liquids (ILs) may result in emissions into the environment. Particularly vulnerable are industrial areas and landfills where ILs are utilized and ultimately disposed of. This study investigates how IL contamination can affect soil properties and the sorption of pre-existing contaminants. The commonly used IL 1-methyl-3-octyl imidazolium chloride ([OMIM][Cl]) was added at various quantities to a landfill soil contaminated with polycyclic aromatic hydrocarbons (PAHs). Subsequently, the release of PAHs and dissolved organic matter (DOM) from this soil was thoroughly investigated. Two fractions of PAH release into the porewater were measured, the freely dissolved fraction (measured using a passive sampler) and the total PAH concentration (which includes the freely dissolved molecules as well as those associated with colloids, micelles and DOM). As expected the highest levels of total PAH porewater concentration occurred when the critical micelle concentration (CMC) of the IL was exceeded. However, as we report here for the first time, enhanced amounts of freely dissolved PAHs were released by sub-CMC concentrations of IL. Additionally, enhanced levels of DOM, due to dissolution of soil organic matter by IL, were also observed upon addition of sub-CMC IL concentrations. Based on this, enhanced release of pre-existing contaminants and DOM is suggested as a potential risk from IL emissions at trace concentrations well below the CMC. Potential mechanisms of this sub-CMC release are discussed.

Published
2013
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45. Toxicity of ionic liquid cations and anions towards activated sewage sludge organisms from different sources -- consequences for biodegradation testing and wastewater treatment plant operation.

Author

Markiewicz M, Piszora M, Caicedo N, Jungnickel C, and Stolte S

Subjects
Aerobiosis drug effects, Biodegradation, Environmental drug effects, Imidazoles chemistry, Imidazoles toxicity, Inhibitory Concentration 50, Ionic Liquids chemistry, Aliivibrio fischeri drug effects, Anions toxicity, Cations toxicity, Ionic Liquids toxicity, Sewage microbiology, Wastewater chemistry, Water Purification
Abstract

Ionic liquids (ILs) have attracted great interest in academia and industry during the last decade. So far, several ILs have been used in technological processes, from small scale to industrial applications, which makes it more and more likely that they will be released into the environment. Researchers have been actively studying the environmental and toxicological behaviour of ILs, but their influence on the activated sludge communities of wastewater treatment plants have yet to be investigated. This study aims to fill this knowledge gap by systematically investigating the influence of ILs on activated sewage sludge communities. We tested the inhibition of activated sludge respiration (according to OECD guideline 209) by a selection of 19 different compounds covering the chemical space of ILs as comprehensively as possible. To elicit the differences in sensitivities/tolerances towards ILs we investigated activated sludge from different domestic and industrial sources. Generally speaking, the structure activity relationships of IL toxicity towards activated sludge are in good agreement with those found for other organisms and test systems. The inhibitory potential of tested ILs substituted with short alkyl chains (≤ 4) and polar anions was low. On the other hand, the toxic effects of highly hydrophobic ionic cations and anions were greater - IC50 values were low, some < 50 μM (<10 mg L(-1)). We were able to demonstrate that the EC50 values from Vibrio fischeri can be used for a reliable assessment of the sludge inhibition potential of tested ILs. All the results are discussed in the context of their consequences for biodegradation processes and the performance of wastewater treatment plants., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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46. Solubilization of benzene, toluene, and xylene (BTX) in aqueous micellar solutions of amphiphilic imidazolium ionic liquids.

Author

Łuczak J, Jungnickel C, Markiewicz M, and Hupka J

Subjects
Micelles, Molecular Structure, Solubility, Solutions, Water chemistry, Benzene chemistry, Imidazoles chemistry, Ionic Liquids chemistry, Surface-Active Agents chemistry, Toluene chemistry, Xylenes chemistry
Abstract

Water-soluble ionic liquids may be considered analogues to cationic surfactants with a corresponding surface activity and ability to create organized structures in aqueous solutions. For the first time, the enhanced solubility of the aromatic hydrocarbons, benzene, toluene, and xylene, in aqueous micellar systems of 1-alkyl-3-methylimidazolium chlorides was investigated. Above a critical micelle concentration, a gradual increase in the concentration of aromatic hydrocarbons in the miceller solution was observed. This phenomenon was followed by means of the molar solubilization ratio, the micellar/water partition coefficient, and the number of solubilizate molecules per IL micelle. The molar solubilization ratio for ionic liquid micelles was found to be significantly higher when compared to that of ionic surfactants of similar chain length. The incorporation of the hydrocarbon into the micelle affects also an increase of the aggregation number.

Published
2013
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47. Interaction of Novel Ionic Liquids with Soils.

Author

Mrozik W, Jungnickel C, Paszkiewicz M, and Stepnowski P

Abstract

With the constant development of new ionic liquids, the understanding of the chemical fate of these compounds also needs to be updated. To this effect, the interaction of a number of novel ionic liquids with soils was determined. Therefore, three novel headgroups (ammonium, phosphonium, or pyrrolidinium) with single or quaternary substitution were tested on a variety of soils with high-to-low organic matter content and high-to-low cation exchange capacity, thereby trying to capture the full range of possible soil interactions. It was found that the ionic liquids with single butyl alkyl chain interacted more strongly with the soils (especially with a higher cation exchange capacity), at lower concentrations, than the quad-substituted ionic liquids. However, the quad-substituted ionic liquids interacted more strongly at higher concentrations, due to the double-layer formation, and induced stronger dipole interaction with previously sorbed molecules.

Published
2013
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48. Changes in zeta potential of imidazolium ionic liquids modified minerals--Implications for determining mechanism of adsorption.

Author

Markiewicz M, Mrozik W, Rezwan K, Thöming J, Hupka J, and Jungnickel C

Subjects
Adsorption, Aluminum Silicates chemistry, Clay, Imidazoles analysis, Ionic Liquids analysis, Kaolin chemistry, Models, Chemical, Soil Pollutants analysis, Imidazoles chemistry, Ionic Liquids chemistry, Soil chemistry, Soil Pollutants chemistry
Abstract

As the amount of industrial processes involving ionic liquids (ILs) increase the question of their environmental fate awaits an answer. Should ILs become a source of pollution they will primarily be found in soils and water. Interaction of imidazolium IL with soils is a complex interplay of many parameters making predicting their fate and mobility a challenging task. In order to shed more light on the mechanism of adsorption in soils we examined the interactions of imidazolium ILs with the major component of soils, namely mineral fraction. Within this work adsorption on kaolinite and quartz was investigated in terms of adsorption isotherms, partition coefficients and changes of zeta potentials of clays modified by ILs aggregates. The zeta potential was found to be dependent on the alkyl chain length of the imidazolium homologues. It can therefore be concluded that although adsorption seems to rely on electrostatic attraction, at least in the initial stage, the hydrophobicity of molecules is just as significant., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2013
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49. Determination of LFER descriptors of 30 cations of ionic liquids--progress in understanding their molecular interaction potentials.

Author

Cho CW, Jungnickel C, Stolte S, Preiss U, Arning J, Ranke J, Krossing I, and Thöming J

Abstract

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., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2012
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50. Influence of microbial adaption and supplementation of nutrients on the biodegradation of ionic liquids in sewage sludge treatment processes.

Author

Markiewicz M, Stolte S, Lustig Z, Łuczak J, Skup M, Hupka J, and Jungnickel C

Subjects
Adaptation, Physiological, Biodegradation, Environmental, Ionic Liquids metabolism, Sewage
Abstract

As ionic liquids are winning more attention from industry as a replacement of more hazardous chemicals, some of their structures have the potential to become persistent pollutants due to high stability towards abiotic and biotic degradation processes. Therefore it is important to determine the hazard associated with the presence of ILs in the environment, for example biodegradation under real conditions. Standard biodegradation testing procedures generally permit pre-conditioning of inoculum but do not allow for pre-exposition to the test substance. These are usually conducted in a mineral medium which does not provide additional organic nutrients. Though very valuable, as a point of reference, these tests do not fully represent real conditions. In in situ conditions, for example in wastewater treatment plants or natural soils and water bodies, the presence of readily available sources of energy and nutrients as well as the process of adaptation may often alter the fate and metabolic pathways of xenobiotics. Our results have shown that these are the opposing processes influencing the biodegradation rate of ILs in sewage sludge. The results have significant practical implications with respect to the assessment of biodegradability and environmental fate of ILs and other xenobiotics in environmental conditions and their potential remediation options., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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