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2. Topical inflammasome inhibition with disulfiram prevents irritant contact dermatitis

Author

Hanna Bonnekoh, Carolina Vera, Angela Abad‐Perez, Silke Radetzki, Martin Neuenschwander, Edgar Specker, Niklas Amadeus Mahnke, Stefan Frischbutter, Eicke Latz, Marc Nazaré, Jens v. Kries, Marcus Maurer, Jörg Scheffel, and Karoline Krause

Subjects
autoinflammation, contact dermatitis, disulfiram, inflammasome, interleukin‐18, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background The pathogenesis of contact dermatitis, a common inflammatory skin disease with limited treatment options, is held to be driven by inflammasome activation induced by allergens and irritants. We here aim to identify inflammasome‐targeting treatment strategies for irritant contact dermatitis. Methods A high content screen with 41,184 small molecules was performed using fluorescent Apoptosis associated speck‐like protein containing a CARD (ASC) speck formation as a readout for inflammasome activation. Hit compounds were validated for inhibition of interleukin (IL)‐1β secretion. Of these, the approved thiuramdisulfide derivative disulfiram was selected and tested in a patch test model of irritant contact dermatitis in 25 healthy volunteers. Topical application of disulfiram, mometasone or vehicle was followed by application of sodiumdodecylsulfate (SDS) for 24 h each. Eczema induction was quantified by mexameter and laser speckle imaging. Corneocyte sampling of lesional skin was performed to assess inflammasome‐mediated cytokines IL‐1β and IL‐18. Results Disulfiram induced a dose‐dependent inhibition of ASC speck formation and IL‐1β release in cellular assays in vitro. In vivo, treatment with disulfiram, but not with vehicle and less mometasone, inhibited SDS‐induced eczema. This was demonstrated by significantly lower erythema and total perfusion values assessed by mexameter and laser speckle imaging for disulfiram compared to vehicle (p

Published
2021
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3. Design of a General-Purpose European Compound Screening Library for EU-OPENSCREEN

Author

Fredrik Almqvist, Jens Peter von Kries, A. Varnek, Bernd Rupp, Nikita Remez, Jordi Quintana, Gilles Marcou, C. David Andersson, Jordi Mestres, Didier Rognan, Dragos Horvath, Mikael Elofsson, Marcel Hibert, Ronald Kühne, Michael Lisurek, Per-Anders Enqvist, Anna-Lena Gustavsson, Edgar Specker, Ronald Frank, Chimie de la matière complexe (CMC), and Université de Strasbourg (UNISTRA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Pharmacology, Self-organizing map, Protocol (science), business.industry, Organic Chemistry, Drug Evaluation, Preclinical, Biology, Biochemistry, Data science, Chemical space, Biotechnology, Task (project management), Set (abstract data type), Drug Discovery, Molecular Medicine, media_common.cataloged_instance, Relevance (information retrieval), European Union, General Pharmacology, Toxicology and Pharmaceutics, European union, business, [CHIM.CHEM]Chemical Sciences/Cheminformatics, Selection (genetic algorithm), media_common
Abstract

This work describes a collaborative effort to define and apply a protocol for the rational selection of a general-purpose screening library, to be used by the screening platforms affiliated with the EU-OPENSCREEN initiative. It is designed as a standard source of compounds for primary screening against novel biological targets, at the request of research partners. Given the general nature of the potential applications of this compound collection, the focus of the selection strategy lies on ensuring chemical stability, absence of reactive compounds, screening-compliant physicochemical properties, loose compliance to drug-likeness criteria (as drug design is a major, but not exclusive application), and maximal diversity/coverage of chemical space, aimed at providing hits for a wide spectrum of drugable targets. Finally, practical availability/cost issues cannot be avoided. The main goal of this publication is to inform potential future users of this library about its conception, sources, and characteristics. The outline of the selection procedure, notably of the filtering rules designed by a large committee of European medicinal chemists and chemoinformaticians, may be of general methodological interest for the screening/medicinal chemistry community. The selection task of 200K molecules out of a pre-filtered set of 1.4M candidates was shared by five independent European research groups, each picking a subset of 40K compounds according to their own in-house methodology and expertise. An in-depth analysis of chemical space coverage of the library serves not only to characterize the collection, but also to compare the various chemoinformatics-driven selection procedures of maximal diversity sets. Compound selections contributed by various participating groups were mapped onto general-purpose self-organizing maps (SOMs) built on the basis of marketed drugs and bioactive reference molecules. In this way, the occupancy of chemical space by the EU-OPENSCREEN library could be directly compared with distributions of known bioactives of various classes. This mapping highlights the relevance of the selection and shows how the consensus reached by merging the five different 40K selections contributes to achieve this relevance. The approach also allows one to readily identify subsets of target- or target-class-oriented compounds from the EU-OPENSCREEN library to suit the needs of the diverse range of potential users. The final EU-OPENSCREEN library, assembled by merging five independent selections of 40K compounds from various expert groups, represents an excellent example of a Europe-wide collaborative effort toward the common objective of building best-in-class European open screening platforms.

Published
2014
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4. Determination of glucan phosphorylation using heteronuclear1H,13C double and1H,13C,31P triple-resonance NMR spectra

Author

Martin Steup, Felix Nitschke, Edgar Specker, Keven Mallow, and Peter Schmieder

Subjects
inorganic chemicals, chemistry.chemical_classification, Chemistry, Resonance, macromolecular substances, General Chemistry, Spectral line, NMR spectra database, Dephosphorylation, Nuclear magnetic resonance, Heteronuclear molecule, Computational chemistry, Phosphorylation, Molecule, General Materials Science, Glucan
Abstract

Phosphorylation and dephosphorylation of starch and glycogen are important for their physicochemical properties and also their physiological functions. It is therefore desirable to reliably determine the phosphorylation sites. Heteronuclear multidimensional NMR-spectroscopy is in principle a straightforward analytical approach even for complex carbohydrate molecules. With heterogeneous samples from natural sources, however, the task becomes more difficult because a full assignment of the resonances of the carbohydrates is impossible to obtain. Here, we show that the combination of heteronuclear (1) H,(13) C and (1) H,(13) C,(31) P techniques and information derived from spectra of a set of reference compounds can lead to an unambiguous determination of the phosphorylation sites even in heterogeneous samples.

Published
2013
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5. Unexpected Novel Binding Mode of Pyrrolidine-Based Aspartyl Protease Inhibitors: Design, Synthesis and Crystal Structure in Complex with HIV Protease

Author

Andreas Heine, Jark Böttcher, Gerhard Klebe, Nils Griebenow, Sascha Brass, Hauke Lilie, Edgar Specker, Gerhard Müller, and Andreas Schoop

Subjects
Models, Molecular, Proteases, Magnetic Resonance Spectroscopy, Pyrrolidines, Stereochemistry, Peptidomimetic, medicine.medical_treatment, Crystallography, X-Ray, Biochemistry, Mass Spectrometry, Pyrrolidine, chemistry.chemical_compound, HIV Protease, Drug Discovery, Aspartic acid, medicine, HIV Protease Inhibitor, Moiety, Amino Acid Sequence, General Pharmacology, Toxicology and Pharmaceutics, Pharmacology, Protease, Molecular Structure, Chemistry, Organic Chemistry, Rational design, Molecular Medicine, Protein Binding
Abstract

At present nine FDA-approved HIV protease inhibitors have been launched to market, however rapid drug resistance arising under antiviral therapy calls upon novel concepts. Possible strategies are the development of ligands with less peptide-like character or the stabilization of a new and unexpected binding-competent conformation of the protein through a novel ligand-binding mode. Our rational design of pyrrolidinedimethylene diamines was inspired by the idea to incorporate key structural elements from classical peptidomimetics with a non-peptidic heterocyclic core comprising an endocyclic amino function to address the catalytic aspartic acid side chains of Asp 25 and 25'. The basic scaffolds were decorated by side chains already optimized for the recognition pockets of HIV protease or cathepsin D. A multistep synthesis has been established to produce the central heterocycle and to give flexible access to side chain decorations. Depending on the substitution pattern of the pyrrolidine moiety, single-digit micromolar inhibition of HIV-1 protease and cathepsin D has been achieved. Successful design is suggested in agreement with our modelling concepts. The subsequently determined crystal structure with HIV protease shows that the pyrrolidine moiety binds as expected to the pivotal position between both aspartic acid side chains. However, even though the inhibitors have been equipped symmetrically by polar acceptor groups to address the flap water molecule, it is repelled from the complex, and only one direct hydrogen bond is formed to the flap. A strong distortion of the flap region is detected, leading to a novel hydrogen bond which cross-links the flap loops. Furthermore, the inhibitor addresses only three of the four available recognition pockets. It achieves only an incomplete desolvation compared with the similarly decorated amprenavir. Taking these considerations into account it is surprising that the produced pyrrolidine derivatives achieve micromolar inhibition and it suggests extraordinary potency of the new compound class. Most likely, the protonated pyrrolidine moiety experiences strong enthalpic interactions with the enzyme through the formation of two salt bridges to the aspartic acid side chains. This might provide challenging opportunities to combat resistance of the rapidly mutating virus.

Published
2006
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6. An Old Target Revisited: Two New Privileged Skeletons and an Unexpected Binding Mode For HIV-Protease Inhibitors

Author

Andreas Heine, Jark Böttcher, Nils Griebenow, Edgar Specker, Gerhard Klebe, Hauke Lilie, Andreas Schoop, and Gerhard Müller

Subjects
Models, Molecular, Binding Sites, Molecular Structure, Stereochemistry, Chemistry, Kazal-type serine protease inhibitor domain, Drug Evaluation, Preclinical, Hydrogen Bonding, HIV Protease Inhibitors, General Chemistry, Catalysis, Structure-Activity Relationship, Biochemistry, Drug Design, Hydrolase, Humans, HIV Protease Inhibitor, Sulfones
Published
2005
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