Your search keyword '"Keppler, P"' showing total 24 results

1. A platinum(IV) prodrug strategy to overcome glutathione-based oxaliplatin resistance

Author

Philipp Fronik, Michael Gutmann, Petra Vician, Mirjana Stojanovic, Alexander Kastner, Petra Heffeter, Christine Pirker, Bernhard K. Keppler, Walter Berger, and Christian R. Kowol

Subjects

Chemistry, QD1-999

Abstract

Platinum(IV) complexes have the potential to overcome several limitations and reduce adverse effects of platinum-based cancer therapy. Resistance to clinically approved platinum(II) drugs is, at least in part, associated with elevated levels of glutathione. Here, the authors report on an oxaliplatin-based platinum(IV) prodrug, which releases L-buthionine-S,R-sulfoximine, an inhibitor of the rate-limiting enzyme in glutathione biosynthesis, to circumvent glutathione-based resistance mechanisms.

Published

2022

2. Control of the Electroporation Efficiency of Nanosecond Pulses by Swinging the Electric Field Vector Direction

Author

Vitalii Kim, Iurii Semenov, Allen S. Kiester, Mark A. Keppler, Bennett L. Ibey, Joel N. Bixler, Ruben M. L. Colunga Biancatelli, and Andrei G. Pakhomov

Subjects

electroporation, electropermeabilization, nanosecond pulses, nsEP, focal electroporation, cell membrane polarization, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Reversing the pulse polarity, i.e., changing the electric field direction by 180°, inhibits electroporation and electrostimulation by nanosecond electric pulses (nsEPs). This feature, known as “bipolar cancellation,” enables selective remote targeting with nsEPs and reduces the neuromuscular side effects of ablation therapies. We analyzed the biophysical mechanisms and measured how cancellation weakens and is replaced by facilitation when nsEPs are applied from different directions at angles from 0 to 180°. Monolayers of endothelial cells were electroporated by a train of five pulses (600 ns) or five paired pulses (600 + 600 ns) applied at 1 Hz or 833 kHz. Reversing the electric field in the pairs (180° direction change) caused 2-fold (1 Hz) or 20-fold (833 kHz) weaker electroporation than the train of single nsEPs. Reducing the angle between pulse directions in the pairs weakened cancellation and replaced it with facilitation at angles

Published

2023

3. Systematic Study on the Cytotoxic Potency of Commonly Used Dimeric Metal Precursors in Human Cancer Cell Lines

Author

Dr. Heiko Geisler, Dr. Sophia Harringer, Dominik Wenisch, Richard Urban, Dr. Michael A. Jakupec, Dr. Wolfgang Kandioller, and Prof. Dr. Dr. Bernhard K. Keppler

Subjects

anticancer, inhibitory concentration, MTT assay, organometallic, piano stool, Chemistry, QD1-999

Abstract

Abstract The cytotoxicities of seven dimeric metal species of the general formula [M(arene)Cl2]2, commonly used as precursors for complex synthesis and deemed biologically inactive, are investigated in seven commonly employed human cancer cell lines. Four of these complexes featured a ruthenium(II) core, where p‐cymene, toluene, benzene and indane were used as arenes. Furthermore, the osmium(II) p‐cymene dimer, as well as the Cp* dimers of rhodium(III) and its heavier analogue iridium(III) were included in this work (Cp*=1,2,3,4,5‐pentamethylcyclopentadienide). While the cytotoxic potencies of the ruthenium(II) and osmium(II) dimers are very low (or not even detectable at applicable concentrations), surprising activity, especially in cells from ovarian malignancies (with one or two‐digit micromolar IC50 values), have been found for the rhodium(III) and iridium(III) representatives. This publication is aimed at all researchers using synthetic procedures based on functionalization of these dimeric starting materials to rationalize changes in biological properties, especially cytotoxicity in cancer cells.

Published

2022

4. Aluminum in Coffee

Author

Jakob Windisch, Bernhard K. Keppler, and Franz Jirsa

Subjects

Chemistry, QD1-999

Published

2020

5. Pulsed Electric Field Ablation of Esophageal Malignancies and Mitigating Damage to Smooth Muscle: An In Vitro Study

Author

Emily Gudvangen, Uma Mangalanathan, Iurii Semenov, Allen S. Kiester, Mark A. Keppler, Bennett L. Ibey, Joel N. Bixler, and Andrei G. Pakhomov

Subjects

Barrett’s esophagus, electroporation, electropermeabilization, nanosecond pulses, IRE, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cancer ablation therapies aim to be efficient while minimizing damage to healthy tissues. Nanosecond pulsed electric field (nsPEF) is a promising ablation modality because of its selectivity against certain cell types and reduced neuromuscular effects. We compared cell killing efficiency by PEF (100 pulses, 200 ns–10 µs duration, 10 Hz) in a panel of human esophageal cells (normal and pre-malignant epithelial and smooth muscle). Normal epithelial cells were less sensitive than the pre-malignant ones to unipolar PEF (15–20% higher LD50, p < 0.05). Smooth muscle cells (SMC) oriented randomly in the electric field were more sensitive, with 30–40% lower LD50 (p < 0.01). Trains of ten, 300-ns pulses at 10 kV/cm caused twofold weaker electroporative uptake of YO-PRO-1 dye in normal epithelial cells than in either pre-malignant cells or in SMC oriented perpendicularly to the field. Aligning SMC with the field reduced the dye uptake fourfold, along with a twofold reduction in Ca2+ transients. A 300-ns pulse induced a twofold smaller transmembrane potential in cells aligned with the field, making them less vulnerable to electroporation. We infer that damage to SMC from nsPEF ablation of esophageal malignancies can be minimized by applying the electric field parallel to the predominant SMC orientation.

Published

2023

6. Effects of Salinomycin and Deferiprone on Lead-Induced Changes in the Mouse Brain

Author

Emilia Petrova, Yordanka Gluhcheva, Ekaterina Pavlova, Ivelin Vladov, Peter Dorkov, Martin Schaier, Irena Pashkunova-Martic, Thomas H. Helbich, Bernhard Keppler, and Juliana Ivanova

Subjects

Pb-induced neurotoxicity, mouse brain histology, essential elements, salinomycin, deferiprone, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Lead (Pb) is a highly toxic heavy metal that has deleterious effects on the central nervous system. This study aimed to investigate the effects of salinomycin (Sal) and deferiprone (DFP) on brain morphology and on the content of some essential elements in Pb-exposed mice. Adult male Institute of Cancer Research (ICR) mice were exposed to a daily dose of 80 mg/kg body weight ( b.w.) Pb(II) nitrate for 14 days and subsequently treated with Sal (16 mg/kg b.w.) or DFP (19 mg/kg b.w.) for another 14 days. At the end of the experimental protocol, the brains were processed for histological and inductively coupled plasma mass spectrometry (ICP-MS) analyses. Pb exposure resulted in a 50-fold increase in Pb concentration, compared with controls. Magnesium (Mg) and phosphorus (P) were also significantly increased by 22.22% and 17.92%, respectively. The histological analysis of Pb-exposed mice revealed brain pathological changes with features of neuronal necrosis. Brain Pb level remained significantly elevated in Sal- and DFP-administered groups (37-fold and 50-fold, respectively), compared with untreated controls. Treatment with Sal significantly reduced Mg and P concentrations by 22.56% and 18.38%, respectively, compared with the Pb-exposed group. Administration of Sal and DFP ameliorated brain injury in Pb-exposed mice and improved histological features. The results suggest the potential application of Sal and DFP for treatment of Pb-induced neurotoxicity.

Published

2023

7. Evidence for a major missing source in the global chloromethane budget from stable carbon isotopes

Author

E. Bahlmann, F. Keppler, J. Wittmer, M. Greule, H. F. Schöler, R. Seifert, and C. Zetzsch

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Chloromethane (CH3Cl) is the most important natural input of reactive chlorine to the stratosphere, contributing about 16 % to stratospheric ozone depletion. Due to the phase-out of anthropogenic emissions of chlorofluorocarbons, CH3Cl will largely control future levels of stratospheric chlorine. The tropical rainforest is commonly assumed to be the strongest single CH3Cl source, contributing over half of the global annual emissions of about 4000 to 5000 Gg (1 Gg = 109 g). This source shows a characteristic carbon isotope fingerprint, making isotopic investigations a promising tool for improving its atmospheric budget. Applying carbon isotopes to better constrain the atmospheric budget of CH3Cl requires sound information on the kinetic isotope effects for the main sink processes: the reaction with OH and Cl in the troposphere. We conducted photochemical CH3Cl degradation experiments in a 3500 dm3 smog chamber to determine the carbon isotope effect (ε=k13C/k12C-1) for the reaction of CH3Cl with OH and Cl. For the reaction of CH3Cl with OH, we determined an ε value of (-11.2±0.8) ‰ (n=3) and for the reaction with Cl we found an ε value of (-10.2±0.5) ‰ (n=1), which is 5 to 6 times smaller than previously reported. Our smaller isotope effects are strongly supported by the lack of any significant seasonal covariation in previously reported tropospheric δ13C(CH3Cl) values with the OH-driven seasonal cycle in tropospheric mixing ratios. Applying these new values for the carbon isotope effect to the global CH3Cl budget using a simple two hemispheric box model, we derive a tropical rainforest CH3Cl source of (670±200) Gg a−1, which is considerably smaller than previous estimates. A revision of previous bottom-up estimates, using above-ground biomass instead of rainforest area, strongly supports this lower estimate. Finally, our results suggest a large unknown CH3Cl source of (1530±200) Gg a−1.

Published

2019

8. Comparative Effects of Deferiprone and Salinomycin on Lead-Induced Disturbance in the Homeostasis of Intrarenal Essential Elements in Mice

Author

Yordanka Gluhcheva, Irena Pashkunova-Martic, Martin Schaier, Ivelin Vladov, Silviya Stoykova, Emilia Petrova, Ekaterina Pavlova, Peter Dorkov, Thomas H. Helbich, Bernhard Keppler, and Juliana Ivanova

Subjects

deferiprone, salinomycin, lead, essential elements, kidneys, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Lead (Pb) exposure induces severe nephrotoxic effects in humans and animals. Herein, we compare the effects of two chelating agents, salinomycin and deferiprone, on Pb-induced renal alterations in mice and in the homeostasis of essential elements. Adult male mice (Institute of Cancer Research (ICR)) were randomized into four groups: control (Ctrl)—untreated mice administered distilled water for 28 days; Pb-exposed group (Pb)—mice administered orally an average daily dose of 80 mg/kg body weight (BW) lead (II) nitrate (Pb(NO3)2) during the first two weeks of the experimental protocol followed by the administration of distilled water for another two weeks; salinomycin-treated (Pb + Sal) group—Pb-exposed mice, administered an average daily dose of 16 mg/kg BW salinomycin for two weeks; deferiprone-treated (Pb + Def) group—Pb-exposed mice, administered an average daily dose of 20 mg/kg BW deferiprone for 14 days. The exposure of mice to Pb induced significant accumulation of the toxic metal in the kidneys and elicited inflammation with leukocyte infiltrations near the glomerulus. Biochemical analysis of the sera revealed that Pb significantly altered the renal function markers. Pb-induced renal toxicity was accompanied by a significant decrease in the endogenous renal concentrations of phosphorous (P), calcium (Ca), copper (Cu) and selenium (Se). In contrast to deferiprone, salinomycin significantly improved renal morphology in Pb-treated mice and decreased the Pb content by 13.62% compared to the Pb-exposed group. There was also a mild decrease in the renal endogenous concentration of magnesium (Mg) and elevation of the renal concentration of iron (Fe) in the salinomycin-treated group compared to controls. Overall, the results demonstrated that salinomycin is a more effective chelating agent for the treatment of Pb-induced alterations in renal morphology compared to deferiprone.

Published

2022

9. Investigations on the Anticancer Potential of Benzothiazole-Based Metallacycles

Author

Stephan Mokesch, Klaudia Cseh, Heiko Geisler, Michaela Hejl, Matthias H. M. Klose, Alexander Roller, Samuel M. Meier-Menches, Michael A. Jakupec, Wolfgang Kandioller, and Bernhard K. Keppler

Subjects

metallacycles, anticancer, benzothiazoles, ruthenium complexes, osmium complexes, Chemistry, QD1-999

Abstract

A series of 2-phenylbenzothiazole derivatives and their corresponding organometallic ruthenium(II) and osmium(II) complexes were synthesized, designed to exploit both, the attributes of the half-sandwich transition metal scaffold and the bioactivity spectrum of the applied 2-phenylbenzothiazoles. All synthesized compounds were characterized via standard analytical methods. The obtained organometallics showed antiproliferative activity in the low μM range and are thus at least an order of magnitude more potent than the free ligands. ESI-MS measurements showed that the examined compounds were stable in aqueous solution over 48 h. Additionally, their binding preferences to small biomolecules, their cellular accumulation and capacity of inducing apoptosis/necrosis were investigated. Based on the fluorescence properties of the selected ligand and the corresponding ruthenium complex, their subcellular distribution was studied by fluorescence microscopy, revealing a high degree of colocalization with acidic organelles of cancer cells.

Published

2020

10. Mass spectrometric measurement of hydrogen isotope fractionation for the reactions of chloromethane with OH and Cl

Author

F. Keppler, E. Bahlmann, M. Greule, H. F. Schöler, J. Wittmer, and C. Zetzsch

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Chloromethane (CH3Cl) is an important provider of chlorine to the stratosphere but detailed knowledge of its budget is missing. Stable isotope analysis is a potentially powerful tool to constrain CH3Cl flux estimates. The largest degree of isotope fractionation is expected to occur for deuterium in CH3Cl in the hydrogen abstraction reactions with its main sink reactant tropospheric OH and its minor sink reactant Cl atoms. We determined the isotope fractionation by stable hydrogen isotope analysis of the fraction of CH3Cl remaining after reaction with hydroxyl and chlorine radicals in a 3.5 m3 Teflon smog chamber at 293 ± 1 K. We measured the stable hydrogen isotope values of the unreacted CH3Cl using compound-specific thermal conversion isotope ratio mass spectrometry. The isotope fractionations of CH3Cl for the reactions with hydroxyl and chlorine radicals were found to be −264±45 and −280±11 ‰, respectively. For comparison, we performed similar experiments using methane (CH4) as the target compound with OH and obtained a fractionation constant of −205±6 ‰ which is in good agreement with values previously reported. The observed large kinetic isotope effects are helpful when employing isotopic analyses of CH3Cl in the atmosphere to improve our knowledge of its atmospheric budget.

Published

2018

11. Evidence for 2-Methoxyestradiol-Mediated Inhibition of Receptor Tyrosine Kinase RON in the Management of Prostate Cancer

Author

Izhar Singh Batth, Shih-Bo Huang, Michelle Villarreal, Jingjing Gong, Divya Chakravarthy, Brian Keppler, Sridharan Jayamohan, Pawel Osmulski, Jianping Xie, Paul Rivas, Roble Bedolla, Michael A. Liss, I-Tien Yeh, Robert Reddick, Hiroshi Miyamoto, Rita Ghosh, and Addanki P. Kumar

Subjects

castration-resistant prostate cancer, receptor tyrosine kinase, RON, atomic force microscopy, 2-methoxyestradiol, epithelial mesenchymal transition, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

2-Methoxyestradiol (2-ME2) possesses anti-tumorigenic activities in multiple tumor models with acceptable tolerability profile in humans. Incomplete understanding of the mechanism has hindered its development as an anti-tumorigenic compound. We have identified for the first-time macrophage stimulatory protein 1 receptor (MST1R) as a potential target of 2-ME2 in prostate cancer cells. Human tissue validation studies show that MST1R (a.k.a RON) protein levels are significantly elevated in prostate cancer tissues compared to adjacent normal/benign glands. Serum levels of macrophage stimulatory protein (MSP), a ligand for RON, is not only associated with the risk of disease recurrence, but also significantly elevated in samples from African American patients. 2-ME2 treatment inhibited mechanical properties such as adhesion and elasticity that are associated with epithelial mesenchymal transition by downregulating mRNA expression and protein levels of MST1R in prostate cancer cell lines. Intervention with 2-ME2 significantly reduced tumor burden in mice. Notably, global metabolomic profiling studies identified significantly higher circulating levels of bile acids in castrated animals that were decreased with 2-ME2 intervention. In summary, findings presented in this manuscript identified MSP as a potential marker for predicting biochemical recurrence and suggest repurposing 2-ME2 to target RON signaling may be a potential therapeutic modality for prostate cancer.

Published

2021

12. Generation of 25-TW Femtosecond Laser Pulses at 515 nm with Extremely High Temporal Contrast

Author

Marco Hornung, Georg Alexander Becker, Andreas Seidel, Jan Reislöhner, Hartmut Liebetrau, Lennart Bock, Sebastian Keppler, Alexander Kessler, Matthew Zepf, Joachim Hein, and Malte Christoph Kaluza

Subjects

second harmonic generation, diode pumped lasers, frequency conversion, high-power lasers, high-intensity lasers, femtosecond lasers, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

We report on the frequency doubling of femtosecond laser pulses at 1030 nm center wavelength generated from the fully diode-pumped laser system POLARIS. The newly generated pulses at a center wavelength of 515 nm have a pulse energy of 3 J with a pulse duration of 120 fs. On the basis of initially ultra-high contrast seed pulses we expect a temporal intensity contrast better 10 17 200 ps before the peak of the main pulse. We analyzed the temporal intensity contrast from milliseconds to femtoseconds with a dynamic range covering more than 20 orders of magnitude. The pulses were focussed with a f/2-focussing parabola resulting in a peak intensity exceeding 10 20 W / cm 2 . The peak power and intensity are to the best of our knowledge the highest values for 515 nm-laser-pulses achieved so far.

Published

2015

13. Dairy-Inspired Coatings for Bone Implants from Whey Protein Isolate-Derived Self-Assembled Fibrils

Author

Rebecca Rabe, Ute Hempel, Laurine Martocq, Julia K. Keppler, Jenny Aveyard, and Timothy E. L. Douglas

Subjects

coating, stem cell, whey protein isolate, bone, fibril, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

To improve the integration of a biomaterial with surrounding tissue, its surface properties may be modified by adsorption of biomacromolecules, e.g., fibrils. Whey protein isolate (WPI), a dairy industry by-product, supports osteoblastic cell growth. WPI’s main component, β-lactoglobulin, forms fibrils in acidic solutions. In this study, aiming to develop coatings for biomaterials for bone contact, substrates were coated with WPI fibrils obtained at pH 2 or 3.5. Importantly, WPI fibrils coatings withstood autoclave sterilization and appeared to promote spreading and differentiation of human bone marrow stromal cells (hBMSC). In the future, WPI fibrils coatings could facilitate immobilization of biomolecules with growth stimulating or antimicrobial properties.

Published

2020

14. Heavy Metal Extraction under Environmentally Relevant Conditions Using 3-Hydroxy-2-Naphthoate- Based Ionic Liquids: Extraction Capabilities vs. Acute Algal Toxicity

Author

Philip Pirkwieser, José A. López-López, Michael Schagerl, Wolfgang Kandioller, Bernhard K. Keppler, Carlos Moreno, and Franz Jirsa

Subjects

task-specific ionic liquids, heavy metal extraction, algal toxicity, growth inhibition, chlorophyll fluorescence, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

We investigated the applicability of three task-specific ionic liquids (ILs) as heavy metal extracting agents by contrasting extraction capabilities with algal toxicity. The compounds tested were trihexyltetradecylphosphonium-, methyltrioctylphosphonium- and methyltrioctylammonium 3-hydroxy-2-naphthoates. Experiments were performed to assess if these ILs can provide environmentally safe residual concentrations of the target metals after extraction. Both pure water and natural mineral water samples were spiked with 20 µg L−1 of Cu, Ag, Cd, Hg and Pb, respectively. Quantitative extraction (> 99%) of Hg and Ag was achieved. Cu and Hg were below the respective no-observed-effect-concentrations (NOECs) after extraction and Ag below 0.03 µg L−1. Acute toxicity assays were conducted using two freshwater green algae Raphidocelis subcapitata and Tetradesmus obliquus. Growth inhibition and maximum photochemical quantum yield of photosystem II after 72 h were assessed. ILs were less toxic than similar compounds, but still must be classified as acute toxicants for algae. An inhibiting effect on both growth and chlorophyll fluorescence was observed. The leaching of the ILs into the samples remains a limitation regarding their environmental-friendly applicability. Nonetheless, the extremely efficient removal of Cu, Ag and Hg under environmentally relevant conditions calls for further research, which should focus on the immobilization of the ILs.

Published

2020

15. Enhancement of Biomimetic Enzymatic Mineralization of Gellan Gum Polysaccharide Hydrogels by Plant-Derived Gallotannins

Author

Timothy E. L. Douglas, Julia K. Keppler, Marta Vandrovcová, Martin Plencner, Jana Beranová, Michelle Feuereisen, Bogdan V. Parakhonskiy, Yulia Svenskaya, Vsevolod Atkin, Anna Ivanova, Patrick Ricquier, Lieve Balcaen, Frank Vanhaecke, Andreas Schieber, Lucie Bačáková, and Andre G. Skirtach

Subjects

mineralization, polyphenol, composite, protein-polyphenol interaction, gellan gum, enzyme, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Mineralization of hydrogel biomaterials with calcium phosphate (CaP) is considered advantageous for bone regeneration. Mineralization can be both induced by the enzyme alkaline phosphatase (ALP) and promoted by calcium-binding biomolecules, such as plant-derived polyphenols. In this study, ALP-loaded gellan gum (GG) hydrogels were enriched with gallotannins, a subclass of polyphenols. Five preparations were compared, namely three tannic acids of differing molecular weight (MW), pentagalloyl glucose (PGG), and a gallotannin-rich extract from mango kernel (Mangifera indica L.). Certain gallotannin preparations promoted mineralization to a greater degree than others. The various gallotannin preparations bound differently to ALP and influenced the size of aggregates of ALP, which may be related to ability to promote mineralization. Human osteoblast-like Saos-2 cells grew in eluate from mineralized hydrogels. Gallotannin incorporation impeded cell growth on hydrogels and did not impart antibacterial activity. In conclusion, gallotannin incorporation aided mineralization but reduced cytocompatibility.

Published

2020

16. Novel 3-Hydroxy-2-Naphthoate-Based Task-Specific Ionic Liquids for an Efficient Extraction of Heavy Metals

Author

Philip Pirkwieser, José A. López-López, Wolfgang Kandioller, Bernhard K. Keppler, Carlos Moreno, and Franz Jirsa

Subjects

ionic liquid, ammonium, phosphonium, 3-hydroxy-2-naphthoic acid, heavy metal extraction, Chemistry, QD1-999

Abstract

Ionic liquids (ILs) are per definition salts with melting points below 100°C and might be green alternatives for the extraction of heavy metals from aqueous solutions due to their favorable environmental and physico-chemical properties. Partial solution during extraction, so-called leaching, however, limits their applicability. The present study synthesizes three novel ammonium and phosphonium ILs based on 3-hydroxy-2-naphthoic acid—trihexyltetradecylphosphonium—([P66614]), methyltrioctylphosphonium—([P1888]), and methyltrioctylammonium 3-hydroxy-2-naphthoate ([N1888][HNA])—by a deprotonation-metathesis route. The aims were to improve stability during extraction while still achieving high selectivity toward heavy metal ions, as well as to study the impact of different alkyl chains and the central atom of the cation on physico-chemical properties, extraction efficacy, and leaching. Extraction capabilities for the seven heavy metals Ag, Cd, Co, Cu, Mn, Ni, and Pb were studied in pure water at pH 8.0. Further experiments were conducted in water containing 30 g L−1 NaCl to simulate a seawater matrix and/or 30 mg L−1 humic acids, as well as metal-spiked natural water samples. All three ILs showed extraction efficacies ≥90% for Cu and Pb after 24 h. Overall, extraction efficacies for Ag, Cd, Cu, and Pb were highest for drinking water samples. Ag and Cd extraction was increased by up to 41% in (hyper-) saline samples using IL [P66614][HNA] compared with pure water samples. Leaching values were reduced down to 0.07% loss of the applied IL, which can be attributed to the hydrophobic character of 3-hydroxy-2-naphthoate. Our results represent a positive development toward a greener extraction of heavy metals from natural waters.

Published

2018

17. X-Ray structure and cytotoxic activity of a picolinate ruthenium(II)–arene complex

Author

IVANKA IVANOVIĆ, SANJA GRGURIĆ-ŠIPKA, NEVENKA GLIGORIJEVIĆ, SINIŠA RADULOVIĆ, ALEXANDER ROLLER, ŽIVOSLAV LJ. TEŠIĆ, and BERNHARD K. KEPPLER

Subjects

ruthenium(II)–arene, picolinic acid, cytotoxic activity, Chemistry, QD1-999

Abstract

A ruthenium(II)–arene complex with picolinic acid, [(η6-p-cymene)RuCl(pico)]∙H2O, was prepared by the reaction of [(η6-p-cymene)RuCl2]2 with picolinic acid in a 1:2 molar ratio in 2-propanol. The compound was characterized by elemental analysis, and IR and NMR spectroscopy. X-ray diffraction analysis showed that the molecule adopts a “three-leg piano-stool” geometry, which is common for this type of complexes. The cytotoxic activity of the complex was tested in two human cancer cell lines HeLa (cervix) and FemX (melanoma) by MTT assay. The IC50 values were at 82.0 and 36.2 µmol dm-3 for HeLa and FemX cells, respectively.

Published

2011

18. A Graded Multifunctional Hybrid Scaffold with Superparamagnetic Ability for Periodontal Regeneration

Author

Simone Sprio, Elisabetta Campodoni, Monica Sandri, Lorenzo Preti, Tobias Keppler, Frank A. Müller, Nicola M. Pugno, and Anna Tampieri

Subjects

biomimetic hybrid scaffold, biomineralization, electrospinning, periodontal regeneration, collagen, superparamagnetic hydroxyapatite, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The regeneration of dental tissues is a still an unmet clinical need; in fact, no therapies have been completely successful in regenerating dental tissue complexes such as periodontium, which is also due to the lack of scaffolds that are able to guide and direct cell fate towards the reconstruction of different mineralized and non-mineralized dental tissues. In this respect, the present work develops a novel multifunctional hybrid scaffold recapitulating the different features of alveolar bone, periodontal ligament, and cementum by integrating the biomineralization process, and tape casting and electrospinning techniques. The scaffold is endowed with a superparamagnetic ability, thanks to the use of a biocompatible, bioactive superparamagnetic apatite phase, as a mineral component that is able to promote osteogenesis and to be activated by remote magnetic signals. The periodontal scaffold was obtained by engineering three different layers, recapitulating the relevant compositional and microstructural features of the target tissues, into a monolithic multifunctional graded device. Physico-chemical, morphological, and ultrastructural analyses, in association with preliminary in vitro investigations carried out with mesenchymal stem cells, confirm that the final scaffold exhibits a good mimicry of the periodontal tissue complex, with excellent cytocompatibility and cell viability, making it very promising for regenerative applications in dentistry.

Published

2018

19. Synthesis and structural peculiarities of gallium Complexes with novel paullone derivatives

Author

Ginzinger Werner, Arion Vladimir, Giester Gerald, Galanski Markus, and Keppler Bernhard

Subjects

paullones, gallium complexes, x-ray crystallography, Chemistry, QD1-999

Published

2008

20. New insight into the atmospheric chloromethane budget gained using stable carbon isotope ratios

Author

F. Keppler, D. B. Harper, T. Röckmann, R. M. Moore, and J. T. G. Hamilton

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Atmospheric chloromethane (CH3Cl) plays an important role in stratospheric ozone destruction, but many uncertainties still exist regarding strengths of both sources and sinks and the processes leading to formation of this naturally occurring gas. Recent work has identified a novel chemical origin for CH3Cl, which can explain its production in a variety of terrestrial environments: the widespread structural component of plants, pectin, reacts readily with chloride ion to form CH3Cl at both ambient and elevated temperatures (Hamilton et al., 2003). It has been proposed that this abiotic chloride methylation process in terrestrial environments could be responsible for formation of a large proportion of atmospheric CH3Cl. However, more information is required to determine the global importance of this new source and its contribution to the atmospheric CH3Cl budget. A potentially powerful tool in studying the atmospheric CH3Cl budget is the use of stable carbon isotope ratios. In an accompanying paper it is reported that the reaction of CH3Cl with OH radical, the dominant sink for atmospheric CH3Cl, is accompanied by an unexpectedly large fractionation factor (Gola et al., 2005). Another recently published study shows that CH3Cl formed by the abiotic methylation process at ambient temperatures has a unique stable carbon isotope signature, extremely depleted in 13C, unequivocally distinguishing it from all other known sources (Keppler et al., 2004). Using these findings together with data existing in the literature, we here present three scenarios for an isotopic mass balance for atmospheric CH3Cl. Our calculations provide strong support for the proposal that the largest source of atmospheric CH3Cl (1800 to 2500 Gg yr-1) is the abiotic methylation of chloride in terrestrial ecosytems, primarily located in tropical and subtropical areas where turnover of biomass is highest. Furthermore our calculations also indicate that the microbial soil sink for CH3Cl is likely to be much larger (>1000 Gg yr-1) than that previously assumed.

Published

2005

21. Influence of the π-coordinated arene on the anticancer activity of ruthenium(II) carbohydrate organometallic complexes

Author

Muhammad eHanif, Samuel eMeier, Alexey eNazarov, Julie eRisse, Anton eLegin, Angela eCasini, Michael A. Jakupec, Bernhard K. Keppler, and Christian G. Hartinger

Subjects

Carbohydrates, Anticancer activity, Bioorganometallic chemistry, Phosphorus ligands, Ruthenium arene compounds, Chemistry, QD1-999

Abstract

The synthesis and in vitro cytotoxicity of a series of RuII(arene) complexes with carbohydrate-derived phosphite ligands and various arene co-ligands is described. The arene ligand has a strong influence on the in vitro anticancer activity of this series of compounds, which correlates fairly well with cellular accumulation. The most lipophilic compound bearing a biphenyl moiety and a cyclohexylidene-protected carbohydrate is the most cytotoxic with unprecedented IC50 values for the compound class in three human cancer cell lines. This compound shows reactivity to the DNA model nucleobase 9-ethylguanine, but does not alter the secondary structure of plasmid DNA indicating that other biological targets are responsible for its cytotoxic effect.

Published

2013

22. Channels and Transporters

Author

Raimund Dutzler, Beat Ernst, Matthias A. Hediger, Dietrich Keppler, Peter Mohr, Werner Neidhart, and Hans Peter Märki

Subjects

Ion channels, Membrane transport, Transporters, Chemistry, QD1-999

Abstract

During a half-day symposium, the topic 'Channels and Transporters' was covered with five lectures, including a presentation on 'Introduction and Basics of Channels and Transporters' by Beat Ernst, lectures on structure, function and physiology of channels and transporters ('The Structural Basis for Ion Conduction and Gating in Pentameric Ligand-Gated Ion Channels' by Raimund Dutzler and 'Uptake and Efflux Transporters for Endogenous Substances and for Drugs' by Dietrich Keppler), and a case study lecture on 'Avosentan' by Werner Neidhart. The program was completed by Matthias Hediger who introduced to the audience the National Center of Competence in Research (NCCR)-TransCure in his lecture entitled 'From Transport Physiology to Identification of Therapeutic Targets'.

Published

2010

23. Covalent Labeling of Fusion Proteins with Chemical Probes in Living Cells

Author

Susanne Gendreizig, Antje Keppler, Alexandre Juillerat, Thomas Gronemeyer, Horst Pick, Horst Vogel, and Kai Johnsson

Subjects

O6-alkylguanine-dna alkyltransferase, Fluorescent probes, Protein labeling, Chemistry, QD1-999

Abstract

A general method for the specific and covalent labeling of fusion proteins in vivo is described. The approach is based on the unusual mechanism of the human DNA repair protein O6-alkylguanine-DNA alkyl-transferase, which irreversibly transfers an alkyl group from O6-alkylguanine-DNA to one of its cysteine residues. Labeling is possible in bacterial as well as eukaryotic cells and is independent of the nature of the label, thereby opening up new ways to study proteins in vivo.

Published

2003

24. Tumor-inhibiting bis(β-Diketonato) metal complexes. Budotitane, cis-diethoxybis(1-phenylbutane-1,3-dionato)titanium(IV).

Author

Keppler, B. K., Friesen, C., Moritz, H. G., Vongerichten, H., Vogel, E., Clarke, M. J., Goodenough, J. B., Ibers, J. A., Jørgensen, C. K., Mingos, D. M. P., Neilands, J. B., Palmer, G. A., Reinen, D., Sadler, P. J., Weiss, R., and Williams, R. J. P.

Abstract

Cisplatin, cis-diamminedichloroplatinum(II), and carboplatin, cis-diammine(cyclobutane-1,1-dicarboxylato)platinum(II), are the first drugs from inorganic chemistry to have come under routine clinical use in medical oncology. Their antitumor activity ranges from testicular carcinomas, ovarian carcinomas, and tumors of the head and neck to bladder tumors. However, the spectrum of indication is fairly limited. There is no or only insufficient antitumor activity in tumors which account for the major share of cancer mortality today, e.g. lung tumors and gastrointestinal tumors. Direct derivatives of cisplatin such as carboplatin have only led to a limited reduction or change in drug toxicity. In most cases, the toxicity pattern has changed from nephrotoxicity to myelotoxicity. New metal complexes are now being developed which are designed to supplement the spectrum of indication of platinum complexes. Among non-platinum complexes, budotitane (INN), cis-diethoxybis(1-phenylbutane-1,3-dionato)titanium(IV), is among the most advanced. It is undergoing clinical trials today. Extensive investigations into structure-activity relations have clearly shown a dependence of the activity on the central metal and the diketonato ligand. The tumor-inhibiting effect decreases in the order titanium > zirconium > hafnium > molybdenum > tin > germanium. Antitumor activity is also highly dependent on the nature of the diketonate used. Ligands substituted with planar aromatic ring systems such as the phenyl groups in budotitane are advantageous. Most of the tumor-inhibiting bis(β-diketonato) complexes are cis-configurated. The cis-configurated compounds with an unsymmetrically substituted β-diketonate as ligand are in an equilibrium between three possible cis-isomers in solution at room temperature, due to the fact that the diketonate can rotate via a twist mechanism. The easily hydrolizable group in these complexes does not play a major role in antitumor activity, but it is important for the galenic formulation in the clinic. The ethoxy group as leaving group in budotitane hydrolizes at a slower rate than the corresponding halides. The best antitumor effects could be obtained with titanium and a diketonato ligand substituted with phenyl groups. Budotitane is highly active in several transplantable tumors and shows promising effects in an autochthonous colorectal tumor model, which is highly predictive for the clinical situation. Side-effects include mild hepatotoxicity and nephrotoxicity. These findings have been confirmed in clinical phase I studies. A phase II study is now in preparation. If preclinical antitumor activity in colorectal tumors can be confirmed in the clinic, this would lead a considerable step forward in the chemotherapy of cancer. [ABSTRACT FROM AUTHOR]

Published

1991