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2. PEtOxylated polyesteramide nanoparticles for the delivery of anti-inflammatory drugs

Author

Behnke, Mira, Vollrath, Antje, Dahlke, Philipp, Larios, Francisco Páez, Chi, Mingzhe, Tsarenko, Ekaterina, Jordan, Paul M., Weber, Christine, Dirauf, Michael, Czaplewska, Justyna Anna, Beringer-Siemers, Baerbel, Stumpf, Steffi, Kellner, Carolin, Kretzer, Christian, Hoeppener, Stephanie, Nischang, Ivo, Sierka, Marek, Eggeling, Christian, Werz, Oliver, and Schubert, Ulrich S.

Published
2024
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6. Task-Adaptive Angle Selection for Computed Tomography-Based Defect Detection.

Author

Wang, Tianyuan, Florian, Virginia, Schielein, Richard, Kretzer, Christian, Kasperl, Stefan, Lucka, Felix, and Leeuwen, Tristan van

Subjects
DEEP reinforcement learning, REINFORCEMENT learning, COMPUTED tomography, DEEP learning, QUALITY control
Abstract

Sparse-angle X-ray Computed Tomography (CT) plays a vital role in industrial quality control but leads to an inherent trade-off between scan time and reconstruction quality. Adaptive angle selection strategies try to improve upon this based on the idea that the geometry of the object under investigation leads to an uneven distribution of the information content over the projection angles. Deep Reinforcement Learning (DRL) has emerged as an effective approach for adaptive angle selection in X-ray CT. While previous studies focused on optimizing generic image quality measures using a fixed number of angles, our work extends them by considering a specific downstream task, namely image-based defect detection, and introducing flexibility in the number of angles used. By leveraging prior knowledge about typical defect characteristics, our task-adaptive angle selection method, adaptable in terms of angle count, enables easy detection of defects in the reconstructed images. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Ethoxy acetalated dextran-based nanocarriers accomplish efficient inhibition of leukotriene formation by a novel FLAP antagonist in human leukocytes and blood

Author

Kretzer, Christian, Shkodra, Blerina, Klemm, Paul, Jordan, Paul M., Schröder, Daniel, Cinar, Gizem, Vollrath, Antje, Schubert, Stephanie, Nischang, Ivo, Hoeppener, Stephanie, Stumpf, Steffi, Banoglu, Erden, Gladigau, Frederike, Bilancia, Rossella, Rossi, Antonietta, Eggeling, Christian, Neugebauer, Ute, Schubert, Ulrich S., and Werz, Oliver

Published
2022
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12. Shifting the Biosynthesis of Leukotrienes Toward Specialized Pro-Resolving Mediators by the 5-Lipoxygenase-Activating Protein (FLAP) Antagonist BRP-201

Author

Maz, Tuğçe Gür, Kretzer, Christian, Bilancia, Rossella, Jordan, Paul M., Werz, Oliver, Rossi, Antonietta, BANOĞLU, ERDEN, and Schubert, Ulrich S.

Subjects
endocrine system diseases, integumentary system, food and beverages, lipids (amino acids, peptides, and proteins), Journal of Inflammation Research
Abstract

Christian Kretzer,1 Paul M Jordan,1 Rossella Bilancia,2 Antonietta Rossi,2 Tuğçe Gür Maz,3 Erden Banoglu,3 Ulrich S Schubert,4,5 Oliver Werz1,5 1Department of Pharmaceutical/Medicinal Chemistry, Institute of Pharmacy, Friedrich Schiller University Jena, Jena, 07743, Germany; 2Department of Pharmacy, School of Medicine and Surgery, University of Naples Federico II, Naples, I-80131, Italy; 3Department of Pharmaceutical Chemistry, Faculty of Pharmacy, Gazi University, Yenimahalle, 06560, Ankara, Turkey; 4Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich Schiller University Jena, Jena, 07743, Germany; 5Jena Center for Soft Matter (JCSM) Friedrich Schiller University Jena, Jena, 07743, GermanyCorrespondence: Oliver Werz, Email oliver.werz@uni-jena.deBackground and Purpose: Lipid mediators (LM) play crucial roles in the complex inflammation process with respect to initiation, maintenance, and resolution. Proinflammatory leukotrienes (LTs), generated by 5-lipoxygenase (LOX) and the 5-LOX-activating protein (FLAP), initiate and maintain inflammation while specialized pro-resolving mediators (SPMs) formed by various LOXs as key enzymes promote inflammation resolution and the return to homeostasis. Since 5-LOX also contributes to SPM biosynthesis, smart pharmacological manipulation of the 5-LOX pathway and accompanied activation of 12-/15-LOXs may accomplish suppression of LT formation but maintain or even elevate SPM formation. Here, we demonstrated that the FLAP antagonist BRP-201 possesses such pharmacological profile and causes a switch from LT toward SPM formation.Methods and Results: Comprehensive LM metabololipidomics with activated human monocyte-derived macrophages (MDM) of M1 or M2 phenotype showed that BRP-201 strongly inhibits LT formation induced by bacterial exotoxins. In parallel, SPM levels and 12/15-LOX-derived products were markedly elevated, in particular in M2-MDM. Intriguingly, in unstimulated MDM, BRP-201 induced formation of 12/15-LOX products including SPM and caused 15-LOX-1 subcellular redistribution without affecting 5-LOX. Experiments with HEK293 cells stably expressing either 5-LOX with or without FLAP, 15-LOX-1 or 15-LOX-2 confirmed suppression of 5-LOX product formation due to FLAP antagonism by BRP-201 but activated 15-LOX-1 in the absence of FLAP. Finally, in zymosan-induced murine peritonitis, BRP-201 (2 mg/kg, ip) lowered LT levels but elevated 12/15-LOX products including SPMs.Conclusion: BRP-201 acts as FLAP antagonist but also as 12/15-LOX activator switching formation of pro-inflammatory LTs toward inflammation-resolving SPM, which reflects a beneficial pharmacological profile for intervention in inflammation.Keywords: lipoxygenase, specialized pro-resolving mediators, leukotrienes, lipid mediators

Published
2022

14. Label-Free Characterization of Macrophage Polarization Using Raman Spectroscopy †.

Author

Naumann, Max, Arend, Natalie, Guliev, Rustam R., Kretzer, Christian, Rubio, Ignacio, Werz, Oliver, and Neugebauer, Ute

Subjects
MACROPHAGES, RAMAN spectroscopy, HUMAN phenotype, SPECTROSCOPIC imaging, KILLER cells, IMMUNE system, FISHER discriminant analysis
Abstract

Macrophages are important cells of the innate immune system that play many different roles in host defense, a fact that is reflected by their polarization into many distinct subtypes. Depending on their function and phenotype, macrophages can be grossly classified into classically activated macrophages (pro-inflammatory M1 cells), alternatively activated macrophages (anti-inflammatory M2 cells), and non-activated cells (resting M0 cells). A fast, label-free and non-destructive characterization of macrophage phenotypes could be of importance for studying the contribution of the various subtypes to numerous pathologies. In this work, single cell Raman spectroscopic imaging was applied to visualize the characteristic phenotype as well as to discriminate between different human macrophage phenotypes without any label and in a non-destructive manner. Macrophages were derived by differentiation of peripheral blood monocytes of human healthy donors and differently treated to yield M0, M1 and M2 phenotypes, as confirmed by marker analysis using flow cytometry and fluorescence imaging. Raman images of chemically fixed cells of those three macrophage phenotypes were processed using chemometric methods of unmixing (N-FINDR) and discrimination (PCA-LDA). The discrimination models were validated using leave-one donor-out cross-validation. The results show that Raman imaging is able to discriminate between pro- and anti-inflammatory macrophage phenotypes with high accuracy in a non-invasive, non-destructive and label-free manner. The spectral differences observed can be explained by the biochemical characteristics of the different phenotypes. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Effect of Crystallinity on the Properties of Polycaprolactone Nanoparticles Containing the Dual FLAP/mPEGS-1 Inhibitor BRP-187

Author

Vollrath, Antje, Kretzer, Christian, Beringer-Siemers, Bärbel, Shkodra, Blerina, Czaplewska, Justyna A., Bandelli, Damiano, Stumpf, Steffi, Hoeppener, Stephanie, Weber, Christine, Werz, Oliver, and Schubert, Ulrich S.

Subjects
hydrophobic-hydrophilic balance (HHB), QD241-441, polycaprolactone (PCL), nanoparticle crystallinity, Organic chemistry, FLAP antagonist, nanoparticle formulation, polyesters, BRP-187, Article
Abstract

Seven polycaprolactones (PCL) with constant hydrophobicity but a varying degree of crystallinity prepared from the constitutional isomers ε-caprolactone (εCL) and δ-caprolactone (δCL) were utilized to formulate nanoparticles (NPs). The aim was to investigate the effect of the crystallinity of the bulk polymers on the enzymatic degradation of the particles. Furthermore, their efficiency to encapsulate the hydrophobic anti-inflammatory drug BRP-187 and the final in vitro performance of the resulting NPs were evaluated. Initially, high-throughput nanoprecipitation was employed for the εCL and δCL homopolymers to screen and establish important formulation parameters (organic solvent, polymer and surfactant concentration). Next, BRP-187-loaded PCL nanoparticles were prepared by batch nanoprecipitation and characterized using dynamic light scattering, scanning electron microscopy and UV-Vis spectroscopy to determine and to compare particle size, polydispersity, zeta potential, drug loading as well as the apparent enzymatic degradation as a function of the copolymer composition. Ultimately, NPs were examined for their potency in vitro in human polymorphonuclear leukocytes to inhibit the BRP-187 target 5-lipoxygenase-activating protein (FLAP). It was evident by Tukey’s multi-comparison test that the degree of crystallinity of copolymers directly influenced their apparent enzymatic degradation and consequently their efficiency to inhibit the drug target.

Published
2021

17. Shifting the Biosynthesis of Leukotrienes Toward Specialized Pro-Resolving Mediators by the 5-Lipoxygenase-Activating Protein (FLAP) Antagonist BRP-201.

Author

Kretzer, Christian, Jordan, Paul M, Bilancia, Rossella, Rossi, Antonietta, Maz, Tuğçe Gür, Banoglu, Erden, Schubert, Ulrich S, and Werz, Oliver

Subjects
LEUKOTRIENES, BIOSYNTHESIS, LIPOXINS, PROTEINS, DRUG therapy, PERITONITIS
Abstract

Background and Purpose: Lipid mediators (LM) play crucial roles in the complex inflammation process with respect to initiation, maintenance, and resolution. Proinflammatory leukotrienes (LTs), generated by 5-lipoxygenase (LOX) and the 5-LOX-activating protein (FLAP), initiate and maintain inflammation while specialized pro-resolving mediators (SPMs) formed by various LOXs as key enzymes promote inflammation resolution and the return to homeostasis. Since 5-LOX also contributes to SPM biosynthesis, smart pharmacological manipulation of the 5-LOX pathway and accompanied activation of 12-/15-LOXs may accomplish suppression of LT formation but maintain or even elevate SPM formation. Here, we demonstrated that the FLAP antagonist BRP-201 possesses such pharmacological profile and causes a switch from LT toward SPM formation. Methods and Results: Comprehensive LM metabololipidomics with activated human monocyte-derived macrophages (MDM) of M1 or M2 phenotype showed that BRP-201 strongly inhibits LT formation induced by bacterial exotoxins. In parallel, SPM levels and 12/15-LOX-derived products were markedly elevated, in particular in M2-MDM. Intriguingly, in unstimulated MDM, BRP-201 induced formation of 12/15-LOX products including SPM and caused 15-LOX-1 subcellular redistribution without affecting 5-LOX. Experiments with HEK293 cells stably expressing either 5-LOX with or without FLAP, 15-LOX-1 or 15-LOX-2 confirmed suppression of 5-LOX product formation due to FLAP antagonism by BRP-201 but activated 15-LOX-1 in the absence of FLAP. Finally, in zymosan-induced murine peritonitis, BRP-201 (2 mg/kg, ip) lowered LT levels but elevated 12/15-LOX products including SPMs. Conclusion: BRP-201 acts as FLAP antagonist but also as 12/15-LOX activator switching formation of pro-inflammatory LTs toward inflammation-resolving SPM, which reflects a beneficial pharmacological profile for intervention in inflammation. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Synthesis, biological evaluation and structure–activity relationships of diflapolin analogues as dual sEH/FLAP inhibitors

Author

Vieider, Lisa, Romp, Erik, Temml, Veronika, Fischer, Jana, Kretzer, Christian, Schönthaler, Martin, Taha, Abdulla, Hernández-Olmos, Victor, Sturm, Sonja, Schuster, Daniela, Werz, Oliver, Garscha, Ulrike, and Matuszczak, Barbara

Subjects
ddc:610
Abstract

A series of derivatives of the potent dual soluble epoxide hydrolase (sEH)/5-lipoxygenase-activating protein (FLAP) inhibitor diflapolin was designed, synthesized, and characterized by 1H NMR, 13C NMR, and elemental analysis. These novel compounds were biologically evaluated for their inhibitory activity against sEH and FLAP. Molecular modeling tools were applied to analyze structure–activity relationships (SAR) on both targets. Results show that even small modifications on the lead compound diflapolin markedly influence the inhibitory potential, especially on FLAP, suggesting very narrow SAR.

Published
2018

19. From Vietnamese plants to a biflavonoid that relieves inflammation by triggering the lipid mediator class switch to resolution.

Author

Van Anh, Tran Thi, Mostafa, Alilou, Rao, Zhigang, Pace, Simona, Schwaiger, Stefan, Kretzer, Christian, Temml, Veronika, Giesel, Carsten, Jordan, Paul M., Bilancia, Rossella, Weinigel, Christina, Rummler, Silke, Waltenberger, Birgit, Hung, Tran, Rossi, Antonietta, Stuppner, Hermann, Werz, Oliver, and Koeberle, Andreas

Subjects
LIPOXINS, MEDICAL libraries, INFLAMMATORY mediators, LIPIDS, PLANT extracts, GENE clusters
Abstract

Chronic inflammation results from excessive pro-inflammatory signaling and the failure to resolve the inflammatory reaction. Lipid mediators orchestrate both the initiation and resolution of inflammation. Switching from pro-inflammatory to pro-resolving lipid mediator biosynthesis is considered as efficient strategy to relieve chronic inflammation, though drug candidates exhibiting such features are unknown. Starting from a library of Vietnamese medical plant extracts, we identified isomers of the biflavanoid 8-methylsocotrin-4′-ol from Dracaena cambodiana , which limit inflammation by targeting 5-lipoxygenase and switching the lipid mediator profile from leukotrienes to specialized pro-resolving mediators (SPM). Elucidation of the absolute configurations of 8-methylsocotrin-4′-ol revealed the 2 S , γS -isomer being most active, and molecular docking studies suggest that the compound binds to an allosteric site between the 5-lipoxygenase subdomains. We identified additional subordinate targets within lipid mediator biosynthesis, including microsomal prostaglandin E 2 synthase-1. Leukotriene production is efficiently suppressed in activated human neutrophils, macrophages, and blood, while the induction of SPM biosynthesis is restricted to M2 macrophages. The shift from leukotrienes to SPM was also evident in mouse peritonitis in vivo and accompanied by a substantial decrease in immune cell infiltration. In summary, we disclose a promising drug candidate that combines potent 5-lipoxygenase inhibition with the favorable reprogramming of lipid mediator profiles. From a library of Vietnamese plant extracts, we identified the 2 S , γS -isomer of 8-methylsocotrin-4′-ol (compound 2) as a promising anti-inflammatory drug candidate. The biflavonoid induces a lipid mediator class switch from pro-inflammatory leukotrienes to specialized pro-resolving lipid mediators and relieves inflammation in vitro and in vivo. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2021
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20. Novel benzoxanthene lignans that favorably modulate lipid mediator biosynthesis: A promising pharmacological strategy for anti-inflammatory therapy.

Author

Gerstmeier, Jana, Kretzer, Christian, Di Micco, Simone, Miek, Laura, Butschek, Hannah, Cantone, Vincenza, Bilancia, Rossella, Rizza, Roberta, Troisi, Fabiana, Cardullo, Nunzio, Tringali, Corrado, Ialenti, Armando, Rossi, Antonietta, Bifulco, Giuseppe, Werz, Oliver, and Pace, Simona

Abstract

Lipid mediators (LM) encompass pro-inflammatory prostaglandins (PG) and leukotrienes (LT) but also specialized pro-resolving mediators (SPM) which display pivotal bioactivities in health and disease. Pharmacological intervention with inflammatory disorders such as osteoarthritis and rheumatoid arthritis commonly employs anti-inflammatory drugs that can suppress PG and LT formation, which however, possess limited effectiveness and side effects. Here, we report on the discovery and characterization of the two novel benzoxanthene lignans 1 and 2 that modulate select LM biosynthetic enzymes enabling the switch from pro-inflammatory LT to SPM biosynthesis as potential pharmacological strategy to intervene with inflammation. In cell-free assays, compound 1 and 2 inhibit microsomal prostaglandin E 2 synthase-1 and leukotriene C 4 synthase (IC 50 ∼ 0.6–3.4 µM) and potently interfere with 5-lipoxygenase (5-LOX), the key enzyme in LT biosynthesis (IC 50 = 0.04 and 0.09 µM). In human neutrophils, monocytes and M1 and M2 macrophages, compound 1 and 2 efficiently suppress LT biosynthesis (IC 50 < 1 µM), accompanied by elevation of 15-LOX-derived LM including SPM. In zymosan-induced murine peritonitis, compound 1 and 2 ameliorated self-limited inflammation along with suppression of early LT formation and elevation of subsequent SPM biosynthesis in vivo. Together, these novel benzoxanthene lignans promote the LM class switch from pro-inflammatory towards pro-resolving LM to terminate inflammation, suggesting their suitability as novel leads for pharmacotherapy of arthritis and related inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published
2019
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23. Natural chalcones elicit formation of specialized pro-resolving mediators and related 15-lipoxygenase products in human macrophages.

Author

Kretzer, Christian, Jordan, Paul M., Meyer, Katharina P.L., Hoff, Daniel, Werner, Markus, Hofstetter, Robert Klaus, Koeberle, Andreas, Cala Peralta, Antonio, Viault, Guillaume, Seraphin, Denis, Richomme, Pascal, Helesbeux, Jean-Jacques, Stuppner, Hermann, Temml, Veronika, Schuster, Daniela, and Werz, Oliver

Subjects
*CHALCONES, *EXOTOXIN, *CHALCONE, *MACROPHAGES, *UNSATURATED fatty acids, *BIOSYNTHESIS, *ANTI-inflammatory agents
Abstract

[Display omitted] Specialized pro-resolving mediators (SPMs) comprise lipid mediators (LMs) produced from polyunsaturated fatty acids (PUFAs) via stereoselective oxygenation particularly involving 12/15-lipoxygenases (LOXs). In contrast to pro-inflammatory LMs such as leukotrienes formed by 5-LOX and prostaglandins formed by cyclooxygenases, the SPMs have anti-inflammatory and inflammation-resolving properties. Although glucocorticoids and non-steroidal anti-inflammatory drugs (NSAIDs) that block prostaglandin production are still prime therapeutics for inflammation-related diseases despite severe side effects, novel concepts focus on SPMs as immunoresolvents for anti-inflammatory pharmacotherapy. Here, we studied the natural chalcone MF-14 and the corresponding dihydrochalcone MF-15 from Melodorum fruticosum , for modulating the biosynthesis of LM including leukotrienes, prostaglandins, SPM and their 12/15-LOX-derived precursors in human monocyte-derived macrophage (MDM) M1- and M2-like phenotypes. In MDM challenged with Staphylococcus aureus -derived exotoxins both compounds (10 µM) significantly suppressed 5-LOX product formation but increased the biosynthesis of 12/15-LOX products, especially in M2-MDM. Intriguingly, in resting M2-MDM, MF-14 and MF-15 strikingly evoked generation of 12/15-LOX products and of SPMs from liberated PUFAs, along with translocation of 15-LOX-1 to membranous compartments. Enhanced 12/15-LOX product formation by the chalcones was evident also when exogenous PUFAs were supplied, excluding increased substrate supply as sole underlying mechanism. Rather, MF-14 and MF-15 stimulate the activity of 15-LOX-1, supported by experiments with HEK293 cells transfected with either 5-LOX, 15-LOX-1 or 15-LOX-2. Together, the natural chalcone MF-14 and the dihydrochalcone MF-15 favorably modulate LM biosynthesis in human macrophages by suppressing pro-inflammatory leukotrienes but stimulating formation of SPMs by differential interference with 5-LOX and 15-LOX-1. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Ethoxy acetalated dextran-based nanocarriers accomplish efficient inhibition of leukotriene formation by a novel FLAP antagonist in human leukocytes and blood.

Author

Kretzer, Christian, Shkodra, Blerina, Klemm, Paul, Jordan, Paul M., Schröder, Daniel, Cinar, Gizem, Vollrath, Antje, Schubert, Stephanie, Nischang, Ivo, Hoeppener, Stephanie, Stumpf, Steffi, Banoglu, Erden, Gladigau, Frederike, Bilancia, Rossella, Rossi, Antonietta, Eggeling, Christian, Neugebauer, Ute, Schubert, Ulrich S., and Werz, Oliver

Abstract

Leukotrienes are pro-inflammatory lipid mediators generated by 5-lipoxygenase aided by the 5-lipoxygenase-activating protein (FLAP). BRP-201, a novel benzimidazole-based FLAP antagonist, inhibits leukotriene biosynthesis in isolated leukocytes. However, like other FLAP antagonists, BRP-201 fails to effectively suppress leukotriene formation in blood, which limits its therapeutic value. Here, we describe the encapsulation of BRP-201 into poly(lactide-co-glycolide) (PLGA) and ethoxy acetalated dextran (Ace-DEX) nanoparticles (NPs), aiming to overcome these detrimental pharmacokinetic limitations and to enhance the bioactivity of BRP-201. NPs loaded with BRP-201 were produced via nanoprecipitation and the physicochemical properties of the NPs were analyzed in-depth using dynamic light scattering (size, dispersity, degradation), electrophoretic light scattering (effective charge), NP tracking analysis (size, dispersity), scanning electron microscopy (size and morphology), UV–VIS spectroscopy (drug loading), an analytical ultracentrifuge (drug release, degradation kinetics), and Raman spectroscopy (chemical attributes). Biological assays were performed to study cytotoxicity, cellular uptake, and efficiency of BRP-201-loaded NPs versus free BRP-201 to suppress leukotriene formation in primary human leukocytes and whole blood. Both PLGA- and Ace-DEX-based NPs were significantly more efficient to inhibit leukotriene formation in neutrophils versus free drug. Whole blood experiments revealed that encapsulation of BRP-201 into Ace-DEX NPs strongly increases its potency, especially upon pro-longed (≥ 5 h) incubations and upon lipopolysaccharide-challenge of blood. Finally, intravenous injection of BRP-201-loaded NPs significantly suppressed leukotriene levels in blood of mice in vivo. These results reveal the feasibility of our pharmacological approach using a novel FLAP antagonist encapsulated into Ace-DEX-based NPs with improved efficiency in blood to suppress leukotriene biosynthesis. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Biocompatible valproic acid-coupled nanoparticles attenuate lipopolysaccharide-induced inflammation.

Author

Kühne, Marie, Kretzer, Christian, Lindemann, Henry, Godmann, Maren, Heinze, Thomas, Werz, Oliver, and Heinzel, Thorsten

Subjects
*POST-translational modification, *DRUG delivery systems, *VALPROIC acid, *HISTONE deacetylase inhibitors, *NANOPARTICLES, *CELLULOSE, *EPIGENOMICS, *LIPOPOLYSACCHARIDES
Abstract

[Display omitted] • Anti-inflammatory HDAC inhibitor drug carrier system. • Biocompatible and non-toxic cellulose-based VPA-coupled nanoparticles. • VPA nanoparticles attenuate lipopolysaccharide-induced inflammation in macrophages. • Nanoparticles suppress the TLR - MyD88 - NF-κB signalling axis. • VPA released from nanoparticles decreases TNF-α production. Inflammatory diseases like sepsis are associated with dysregulated gene expression, often caused by an imbalance of epigenetic regulators, such as histone acetyltransferases (HATs) and histone deacetylases (HDACs), and consequently, altered epigenetic chromatin signatures or aberrant posttranslational modifications of signalling proteins and transcription factors. Thus, HDAC inhibitors (HDACi) are a promising class of anti-inflammatory drugs. Recently, an efficient drug delivery system carrying the class I/IIa selective HDACi valproic acid (VPA) was developed to circumvent common disadvantages of free drug administration, e.g. short half-life and side effects. The cellulose-based sulphated VPA-coupled (CV-S) nanoparticles (NPs) are rapidly taken up by cells, do not cause any toxic effects and are fully biocompatible. Importantly, VPA is intracellularly cleaved from the NPs and HDACi activity could be proven. Here, we demonstrate that CV-S NPs exhibit overall anti-inflammatory effects in primary human macrophages and are able to attenuate the lipopolysaccharide-induced inflammatory response. CV-S NPs show superior potential to free VPA to suppress the TLR - MyD88 - NF-κB signalling axis, leading to decreased TNF-α expression and secretion. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Novel benzoxanthene lignans that favorably modulate lipid mediator biosynthesis: A promising pharmacological strategy for anti-inflammatory therapy

Author

Armando Ialenti, Giuseppe Bifulco, Antonietta Rossi, Simona Pace, Corrado Tringali, Oliver Werz, Vincenza Cantone, Roberta Rizza, Rossella Bilancia, Nunzio Cardullo, Fabiana Troisi, Laura Miek, Jana Gerstmeier, Simone Di Micco, Christian Kretzer, Hannah Butschek, Gerstmeier, Jana, Kretzer, Christian, Di Micco, Simone, Miek, Laura, Butschek, Hannah, Cantone, Vincenza, Bilancia, Rossella, Rizza, Roberta, Troisi, Fabiana, Cardullo, Nunzio, Tringali, Corrado, Ialenti, Armando, Rossi, Antonietta, Bifulco, Giuseppe, Werz, Oliver, and Pace, Simona

Subjects
Adult, 0301 basic medicine, Leukotrienes, medicine.drug_class, Lipoxygenase, Anti-Inflammatory Agents, Inflammation, Pharmacology, Biochemistry, Lignans, Anti-inflammatory, Specialized pro-resolving mediators, Arthritis, Rheumatoid, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Biosynthesis, Leukocytes, medicine, Animals, Humans, Prostaglandin E2, IC50, Resolution pharmacology, Prostaglandin-E Synthases, Arachidonate 5-Lipoxygenase, biology, Leukotriene C4, Chemistry, Macrophages, Specialized pro-resolving mediator, Lipid signaling, HEK293 Cells, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, medicine.symptom, medicine.drug, Leukotriene
Abstract

Lipid mediators (LM) encompass pro-inflammatory prostaglandins (PG) and leukotrienes (LT) but also specialized pro-resolving mediators (SPM) which display pivotal bioactivities in health and disease. Pharmacological intervention with inflammatory disorders such as osteoarthritis and rheumatoid arthritis commonly employs anti-inflammatory drugs that can suppress PG and LT formation, which however, possess limited effectiveness and side effects. Here, we report on the discovery and characterization of the two novel benzoxanthene lignans 1 and 2 that modulate select LM biosynthetic enzymes enabling the switch from pro-inflammatory LT to SPM biosynthesis as potential pharmacological strategy to intervene with inflammation. In cell-free assays, compound 1 and 2 inhibit microsomal prostaglandin E2 synthase-1 and leukotriene C4 synthase (IC50 ∼ 0.6–3.4 µM) and potently interfere with 5-lipoxygenase (5-LOX), the key enzyme in LT biosynthesis (IC50 = 0.04 and 0.09 µM). In human neutrophils, monocytes and M1 and M2 macrophages, compound 1 and 2 efficiently suppress LT biosynthesis (IC50

Published
2019

27. Anti-inflammatory celastrol promotes a switch from leukotriene biosynthesis to formation of specialized pro-resolving lipid mediators.

Author

Pace, Simona, Zhang, Kehong, Jordan, Paul M., Bilancia, Rossella, Wang, Wenfei, Börner, Friedemann, Hofstetter, Robert K., Potenza, Marianna, Kretzer, Christian, Gerstmeier, Jana, Fischer, Dagmar, Lorkowski, Stefan, Gilbert, Nathaniel C., Newcomer, Marcia E., Rossi, Antonietta, Chen, Xinchun, and Werz, Oliver

Subjects
*TANDEM mass spectrometry, *BIOSYNTHESIS, *LIPIDS, *LIQUID chromatography
Abstract

The pentacyclic triterpenoid quinone methide celastrol (CS) from Tripterygium wilfordii Hook. F. effectively ameliorates inflammation with potential as therapeutics for inflammatory diseases. However, the molecular mechanisms underlying the anti-inflammatory and inflammation-resolving features of CS are incompletely understood. Here we demonstrate that CS potently inhibits the activity of human 5-lipoxygenase (5-LOX), the key enzyme in pro-inflammatory leukotriene (LT) formation, in cell-free assays with IC 50 = 0.19–0.49 µM. Employing metabololipidomics using ultra-performance liquid chromatography coupled to tandem mass spectrometry in activated human polymorphonuclear leukocytes or M1 macrophages we found that CS (1 µM) potently suppresses 5-LOX-derived products without impairing the formation of lipid mediators (LM) formed by 12-/15-LOXs as well as fatty acid substrate release. Intriguingly, CS induced the generation of 12-/15-LOX-derived LM including the specialized pro-resolving mediator (SPM) resolvin D5 in human M2 macrophages. Finally, intraperitoneal pre-treatment of mice with 10 mg/kg CS strongly impaired zymosan-induced LT formation and simultaneously elevated the levels of SPM and related 12-/15-LOX-derived LM in peritoneal exudates, spleen and plasma in vivo. Conclusively, CS promotes a switch from LT biosynthesis to formation of SPM which may underlie the anti-inflammatory and inflammation-resolving effects of CS, representing an interesting pharmacological strategy for intervention with inflammatory disorders. [Display omitted] • 5-LOX is a high affinity target for celastrol (CS) with IC 50 of 0.19–0.49 µM. • CS blocks 5-LOX-derived leukotriene formation in PMNL and M1 macrophages. • in M2 macrophages CS elicits specialized pro-resolving mediator (SPM) formation. • CS impairs the levels of leukotrienes but elevates SPM in murine peritonitis. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Identification of 2-Aminoacyl-1,3,4-thiadiazoles as Prostaglandin E 2 and Leukotriene Biosynthesis Inhibitors.

Author

Potenza M, Giordano A, Chini MG, Saviano A, Kretzer C, Raucci F, Russo M, Lauro G, Terracciano S, Bruno I, Iorizzi M, Hofstetter RK, Pace S, Maione F, Werz O, and Bifulco G

Abstract

The application of a multi-step scientific workflow revealed an unprecedented class of PGE 2 /leukotriene biosynthesis inhibitors with in vivo activity. Specifically, starting from a combinatorial virtual library of ∼4.2 × 10 5 molecules, a small set of compounds was identified for the synthesis. Among these, four novel 2-aminoacyl-1,3,4-thiadiazole derivatives ( 3 , 6 , 7 , and 9 ) displayed marked anti-inflammatory properties in vitro by strongly inhibiting PGE 2 biosynthesis, with IC 50 values in the nanomolar range. The hit compounds also efficiently interfered with leukotriene biosynthesis in cell-based systems and modulated IL-6 and PGE 2 biosynthesis in a lipopolysaccharide-stimulated J774A.1 macrophage cell line. The most promising compound 3 showed prominent in vivo anti-inflammatory activity in a mouse model, with efficacy comparable to that of dexamethasone, attenuating zymosan-induced leukocyte migration in mouse peritoneum with considerable modulation of the levels of typical pro-/anti-inflammatory cytokines., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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29. Discovery of Novel 5-Lipoxygenase-Activating Protein (FLAP) Inhibitors by Exploiting a Multistep Virtual Screening Protocol.

Author

Olgac A, Carotti A, Kretzer C, Zergiebel S, Seeling A, Garscha U, Werz O, Macchiarulo A, and Banoglu E

Subjects
5-Lipoxygenase-Activating Proteins, Anti-Inflammatory Agents, Models, Molecular, Leukotrienes, Lipoxygenase Inhibitors pharmacology
Abstract

Leukotrienes (LTs) are proinflammatory mediators derived from arachidonic acid (AA), which play significant roles in inflammatory diseases. The 5-lipoxygenase-activating protein (FLAP) is an integral membrane protein, which is essential for the initial step in LT biosynthesis. The aim of this study was to discover novel and chemically diverse FLAP inhibitors for treatment of inflammatory diseases requiring anti-LT therapy. Both ligand- and structure-based approaches were applied to explain the activities of known FLAP inhibitors in relation to their predicted binding modes. We gained valuable insights into the binding modes of the inhibitors by molecular modeling and generated a multistep virtual screening (VS) workflow in which 6.2 million compounds were virtually screened, and the molecular hypotheses were validated by testing VS-hit compounds biologically. The most potent hit compounds showed significant inhibition of FLAP-dependent cellular LT biosynthesis with IC 50 values in the range from 0.13 to 0.87 μM. Collectively, this study provided novel bioactive chemotypes with potential for further development as effective anti-inflammatory drugs.

Published
2020
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30. Improved Bioactivity of the Natural Product 5-Lipoxygenase Inhibitor Hyperforin by Encapsulation into Polymeric Nanoparticles.

Author

Traeger A, Voelker S, Shkodra-Pula B, Kretzer C, Schubert S, Gottschaldt M, Schubert US, and Werz O

Subjects
Adult, Anti-Inflammatory Agents chemistry, Anti-Inflammatory Agents metabolism, Arachidonate 5-Lipoxygenase metabolism, Biological Products chemistry, Biological Products metabolism, Blood Donors, Capsules, Cells, Cultured, Healthy Volunteers, Humans, Lipoxygenase Inhibitors chemistry, Lipoxygenase Inhibitors metabolism, Neutrophils drug effects, Neutrophils metabolism, Phloroglucinol chemistry, Phloroglucinol metabolism, Phloroglucinol pharmacology, Plant Extracts chemistry, Plant Extracts metabolism, Protein Binding drug effects, Serum Albumin, Human metabolism, Solubility, Terpenes chemistry, Terpenes metabolism, Water chemistry, Anti-Inflammatory Agents pharmacology, Biological Products pharmacology, Drug Delivery Systems methods, Hypericum chemistry, Lipoxygenase Inhibitors pharmacology, Nanoparticles chemistry, Phloroglucinol analogs & derivatives, Plant Extracts pharmacology, Terpenes pharmacology
Abstract

Hyperforin, a highly hydrophobic prenylated acylphloroglucinol from the medical plant St. John's Wort, possesses anti-inflammatory properties and suppresses the formation of proinflammatory leukotrienes by inhibiting the key enzyme 5-lipoxygenase (5-LO). Despite its strong effectiveness and the unique molecular mode of interference with 5-LO, the high lipophilicity of hyperforin hampers its efficacy in vivo and, thus, impairs its therapeutic value, especially because of poor water solubility and strong plasma (albumin) protein binding. To overcome these hurdles that actually apply to many other hydrophobic 5-LO inhibitors, we have encapsulated hyperforin into nanoparticles (NPs) consisting of acetalated dextran (AcDex) to avoid plasma protein binding and thus improve its cellular supply under physiologically relevant conditions. Encapsulated hyperforin potently suppressed 5-LO activity in human neutrophils, but it failed to interfere with 5-LO activity in a cell-free assay, as expected. In the presence of human serum albumin (HSA), hyperforin was unable to inhibit cellular 5-LO activity, seemingly because of strong albumin binding. However, when encapsulated into NPs, hyperforin caused strong inhibition of 5-LO activity in the presence of HSA. Together, encapsulation of the highly hydrophobic hyperforin as a representative of lipophilic 5-LO inhibitors into AcDex-based NPs allows for efficient inhibition of 5-LO activity in neutrophils in the presence of albumin because of effective uptake and circumvention of plasma protein binding.

Published
2020
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31. Synthesis, Biological Evaluation and Structure-Activity Relationships of Diflapolin Analogues as Dual sEH/FLAP Inhibitors.

Author

Vieider L, Romp E, Temml V, Fischer J, Kretzer C, Schoenthaler M, Taha A, Hernández-Olmos V, Sturm S, Schuster D, Werz O, Garscha U, and Matuszczak B

Abstract

A series of derivatives of the potent dual soluble epoxide hydrolase (sEH)/5-lipoxygenase-activating protein (FLAP) inhibitor diflapolin was designed, synthesized, and characterized by 1 H NMR, 13 C NMR, and elemental analysis. These novel compounds were biologically evaluated for their inhibitory activity against sEH and FLAP. Molecular modeling tools were applied to analyze structure-activity relationships (SAR) on both targets. Results show that even small modifications on the lead compound diflapolin markedly influence the inhibitory potential, especially on FLAP, suggesting very narrow SAR., Competing Interests: The authors declare no competing financial interest.

Published
2018
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