Max Pillong scite author profile

Dual inhibition of microsomal prostaglandin E2 synthase-1 (mPGES-1) and 5-lipoxygenase (5-LO) is currently pursued as potential pharmacological strategy for treatment of inflammation and cancer. Here we present a series of 26 novel 2-aminothiazole-featured pirinixic acid derivatives as dual 5-LO/mPGES-1 inhibitors with improved potency (exemplified by compound 16 (2-[(4-chloro-6-{[4-(naphthalen-2-yl)-1,3-thiazol-2-yl]amino}pyrimidin-2-yl)sulfanyl]octanoic acid) with IC50 = 0.3 and 0.4 μM, respectively) and bioactivity in vivo. Computational analysis presumes binding sites of 16 at the tip of the 5-LO catalytic domain and within a subpocket of the mPGES-1 active site. Compound 16 (10 μM) hardly suppressed cyclooxygenase (COX)-1/2 activities, failed to inhibit 12/15-LOs, and is devoid of radical scavenger properties. Finally, compound 16 reduced vascular permeability and inflammatory cell infiltration in a zymosan-induced mouse peritonitis model accompanied by impaired levels of cysteinyl-leukotrienes and prostaglandin E2. Together, 2-aminothiazole-featured pirinixic acids represent potent dual 5-LO/mPGES-1 inhibitors with an attractive pharmacological profile as anti-inflammatory drugs.

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Native Electrospray Ionization Mass Spectrometry Reveals Multiple Facets of Aptamer–Ligand Interactions: From Mechanism to Binding Constants

Gülbakan

Barylyuk

Schneider

et al. 2018

J. Am. Chem. Soc.

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Aptamers are oligonucleotide receptors obtained through an iterative selection process from random-sequence libraries. Though many aptamers for a broad range of targets with high affinity and selectivity have been generated, a lack of high-resolution structural data and the limitations of currently available biophysical tools greatly impede understanding of the mechanisms of aptamer-ligand interactions. Here we demonstrate that an approach based on native electrospray ionization mass spectrometry (ESI-MS) can be successfully applied to characterize aptamer-ligand complexes in all details. We studied an adenosine-binding aptamer (ABA), a l-argininamide-binding aptamer (LABA), and a cocaine-binding aptamer (CBA) and their noncovalent interactions with ligands by native ESI-MS and complemented these measurements by ion mobility spectrometry (IMS), isothermal titration calorimetry (ITC), and circular dichroism (CD) spectroscopy. The ligand selectivity of the aptamers and the respective complex stoichiometry could be determined by the native ESI-MS approach. The ESI-MS data can also help refining the binding model for aptamer-ligand complexes and deliver accurate aptamer-ligand binding affinities for specific and nonspecific binding events. For specific ligands, we found K = 69.7 μM and K = 5.3 μM for ABA (two binding sites); K = 22.04 μM for LABA; and K = 8.5 μM for CBA.

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Computer-assisted quantification of motile and invasive capabilities of cancer cells

Kumar

Pillong

Kunze

et al. 2015

Sci Rep

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High-throughput analysis of cancer cell dissemination and its control by extrinsic and intrinsic cellular factors is hampered by the lack of adequate and efficient analytical tools for quantifying cell motility. Oncology research would greatly benefit from such a methodology that allows to rapidly determine the motile behaviour of cancer cells under different environmental conditions, including inside three-dimensional matrices. We combined automated microscopy imaging of two- and three-dimensional cell cultures with computational image analysis into a single assay platform for studying cell dissemination in high-throughput. We have validated this new approach for medulloblastoma, a metastatic paediatric brain tumour, in combination with the activation of growth factor signalling pathways with established pro-migratory functions. The platform enabled the detection of primary tumour and patient-derived xenograft cell sensitivity to growth factor-dependent motility and dissemination and identified tumour subgroup-specific responses to selected growth factors of excellent diagnostic value.

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Scrutinizing MHC-I Binding Peptides and Their Limits of Variation

et al. 2013

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Designed peptides that bind to major histocompatibility protein I (MHC-I) allomorphs bear the promise of representing epitopes that stimulate a desired immune response. A rigorous bioinformatical exploration of sequence patterns hidden in peptides that bind to the mouse MHC-I allomorph H-2Kb is presented. We exemplify and validate these motif findings by systematically dissecting the epitope SIINFEKL and analyzing the resulting fragments for their binding potential to H-2Kb in a thermal denaturation assay. The results demonstrate that only fragments exclusively retaining the carboxy- or amino-terminus of the reference peptide exhibit significant binding potential, with the N-terminal pentapeptide SIINF as shortest ligand. This study demonstrates that sophisticated machine-learning algorithms excel at extracting fine-grained patterns from peptide sequence data and predicting MHC-I binding peptides, thereby considerably extending existing linear prediction models and providing a fresh view on the computer-based molecular design of future synthetic vaccines. The server for prediction is available at http://modlab-cadd.ethz.ch (SLiDER tool, MHC-I version 2012).

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Inhibiting Helicobacter pylori HtrA protease by addressing a computationally predicted allosteric ligand binding site

Perna¹,

Reisen²,

Schmidt³

et al. 2014

Chem. Sci.

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Helicobacter pylori is associated with inflammatory diseases and can cause gastric cancer and mucosa-associated lymphoma. One of the bacterium's key proteins is high temperature requirement A (HpHtrA) protein, an extracellular serine protease that cleaves E-cadherin of gastric epithelial cells, which leads to loss of cell-cell adhesion. Inhibition of HpHtrA may constitute an intervention strategy against H. pylori infection. Guided by the computational prediction of hypothetical ligand binding sites on the surface of HpHtrA, we performed residue mutation experiments that confirmed the functional relevance of an allosteric region. We virtually screened for potential ligands addressing this surface cleft located between the catalytic and PDZ1 domains. Our receptor-based computational method represents protein surface pockets in terms of graph frameworks and retrieves small molecules that satisfy the constraints given by the pocket framework. A new chemical entity was identified that blocked E-cadherin cleavage in vitro by direct binding to HpHtrA, and efficiently blocked pathogen transmigration across the gastric epithelial barrier. A preliminary crystal structure of HpHtrA confirms the validity of a comparative "homology" model of the enzyme, which we used for the computational study. The results of this study demonstrate that addressing orphan protein surface cavities of target macromolecules can lead to new bioactive ligands.More than 50% of the human population is infected by the gram-negative bacterium Helicobacter pylori (H. pylori). 1 It is associated with several inflammatory diseases such as ulceration and gastritis. 2,3 H. pylori colonizes the host's gastric epithelium where it is able to destroy mucosal integrity and therefore can pass the epithelial barrier. 4 In severe cases, an infection can lead to gastric cancer and mucosa-associated lymphoid tissue lymphoma, which is why H. pylori has been rated as a class 1 carcinogen by the World Health gisbert.schneider@pharma.ethz.ch. ( 1) where F is the set of all ligand graph potentials, v(f) corresponds to the value of property f in vertex v, and comp(f) is the complementary graph potential to f. The fit between two vertices in feature f is weighted according to predetermined correlation values c f , which we obtained from observed property distributions in a set of known ligand-protein complexes (PDBbind core set). 23 Briefly, graph representations of all binding sites and their bound ligands were calculated, and all vertices of the ligand graphs were assigned to their closest vertex of the respective pocket graph. The correlation values between the resulting paired property distributions were taken as weighting factors c f . To be consistent with the vertex-fit calculations of the other modules of PoLiMorph that employ z-scoring procedures, the vertex-fit distributions of all assigned vertices within the PDBbind core set were determined. Means and standard deviations of these distributions were used for rescoring of the matched graphs (for technic...

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Max Pillong

Aminothiazole-Featured Pirinixic Acid Derivatives As Dual 5-Lipoxygenase and Microsomal Prostaglandin E₂Synthase-1 Inhibitors with Improved Potency and Efficiency in Vivo

Native Electrospray Ionization Mass Spectrometry Reveals Multiple Facets of Aptamer–Ligand Interactions: From Mechanism to Binding Constants

Computer-assisted quantification of motile and invasive capabilities of cancer cells

Scrutinizing MHC-I Binding Peptides and Their Limits of Variation

Inhibiting Helicobacter pylori HtrA protease by addressing a computationally predicted allosteric ligand binding site

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Max Pillong

Aminothiazole-Featured Pirinixic Acid Derivatives As Dual 5-Lipoxygenase and Microsomal Prostaglandin E2Synthase-1 Inhibitors with Improved Potency and Efficiency in Vivo

Native Electrospray Ionization Mass Spectrometry Reveals Multiple Facets of Aptamer–Ligand Interactions: From Mechanism to Binding Constants

Computer-assisted quantification of motile and invasive capabilities of cancer cells

Scrutinizing MHC-I Binding Peptides and Their Limits of Variation

Inhibiting Helicobacter pylori HtrA protease by addressing a computationally predicted allosteric ligand binding site

Contact Info

Product

Resources

About

Aminothiazole-Featured Pirinixic Acid Derivatives As Dual 5-Lipoxygenase and Microsomal Prostaglandin E₂Synthase-1 Inhibitors with Improved Potency and Efficiency in Vivo