Thomas Ruhland scite author profile

The synthesis and structure-activity relationship of a novel series of compounds with combined effects on 5-HT(3A) and 5-HT(1A) receptors and on the serotonin (5-HT) transporter (SERT) are described. Compound 5m (Lu AA21004) was the lead compound, displaying high affinity for recombinant human 5-HT(1A) (K(i) = 15 nM), 5-HT(1B) (K(i) = 33 nM), 5-HT(3A) (K(i) = 3.7 nM), 5-HT(7) (K(i) = 19 nM), and noradrenergic β(1) (K(i) = 46 nM) receptors, and SERT (K(i) = 1.6 nM). Compound 5m displayed antagonistic properties at 5-HT(3A) and 5-HT(7) receptors, partial agonist properties at 5-HT(1B) receptors, agonistic properties at 5-HT(1A) receptors, and potent inhibition of SERT. In conscious rats, 5m significantly increased extracellular 5-HT levels in the brain after acute and 3 days of treatment. Following the 3-day treatment (5 or 10 (mg/kg)/day) SERT occupancies were only 43% and 57%, respectively. These characteristics indicate that 5m is a novel multimodal serotonergic compound, and 5m is currently in clinical development for major depressive disorder.

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Influence of Janus Particle Shape on Their Interfacial Behavior at Liquid–Liquid Interfaces

Ruhland

et al. 2013

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We investigate the self-assembly behavior of Janus particles with different geometries at a liquid-liquid interface. The Janus particles we focus on are characterized by a phase separation along their major axis into two hemicylinders of different wettability. We present a combination of experimental and simulation data together with detailed studies elucidating the mechanisms governing the adsorption process of Janus spheres, Janus cylinders, and Janus discs. Using the pendant drop technique, we monitor the assembly kinetics following changes in the interfacial tension of nanoparticle adsorption. According to the evolution of the interfacial tension and simulation data, we will specify the characteristics of early to late stages of the Janus particle adsorption and discuss the effect of Janus particle shape and geometry. The adsorption is characterized by three adsorption stages which are based on the different assembly kinetics and different adsorption mechanisms depending on the particle shape.

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Janus Cylinders at Liquid–Liquid Interfaces

et al. 2011

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We describe the first study on the self-assembly behavior of Janus cylinders at liquid/liquid interfaces. The Janus cylinders are characterized by a phase separation along the major axis into two hemicylinders of different wettability. The pendant drop technique and microscopic imaging were used to characterize the adsorption behavior and self-assembly of Janus cylinders at perfluorinated oil/dioxane and perfluorinated oil/dimethyl sulfoxide interfaces. According to the evolution of the interfacial tension and a series of TEM images taken during the cylinder adsorption, we will specify the characteristics of early to late stages of the Janus cylinder adsorption at a liquid-liquid interface and discuss the effect of Janus cylinder length and their concentration. We also establish that the broken symmetry of the corona leads to significantly higher interfacial activity as compared to homogeneous core-shell cylinders. The adsorption is characterized by three different adsorption stages: first, free diffusion to the interface, followed by continuous adsorption of cylinders including ordering and domain formation and, finally, additional packing with a rearrangement of domains and formation of a loose multilayer system.

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Counterion-Mediated Hierarchical Self-Assembly of an ABC Miktoarm Star Terpolymer

et al. 2013

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Directed self-assembly processes of polymeric systems represent a powerful approach for the generation of structural hierarchy in analogy to biological systems. Herein, we utilize triiodide as a strongly polarizable counterion to induce hierarchical self-assembly of an ABC miktoarm star terpolymer comprising a polybutadiene (PB), a poly(tert-butyl methacrylate) (PtBMA), and a poly(N-methyl-2-vinylpyridinium) (P2VPq) segment. Hereby, the miktoarm architecture in conjunction with an increasing ratio of triiodide versus iodide counterions allows for a stepwise assembly of spherical micelles as initial building blocks into cylindrical structures and superstructures thereof. Finally, micrometer-sized multicompartment particles with a periodic lamellar fine structure are observed, for which we introduce the term "woodlouse". The counterion-mediated decrease in hydrophilicity of the corona-forming P2VPq block is the underlying trigger to induce this hierarchical structure formation. All individual steps and the corresponding intermediates toward these well-defined superstructures were intensively studied by scattering and electron microscopic techniques, including transmission electron microtomography.

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Selenium-Linking Strategy for Traceless Solid-Phase Synthesis: Direct Loading, Aliphatic C−H Bond Formation upon Cleavage and Reaction Monitoring by Gradient MAS NMR Spectroscopy

1998

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The development of a novel traceless linking strategy for the solid-phase synthesis of small non-peptide compounds by the use of resin-bound selenium is described. Compounds were attached by direct loading without the requirement of an auxiliary spacer. We demonstrate the synthesis of a small [2 × 3]-sized library of single alkyl aryl ethers with two points of diversity by the Mitsunobu reaction. The selenium−alkyl bond that attaches the alkyl aryl ethers to the resin was smoothly cleaved under radical conditions by homolysis with tributylstannane and catalytic amount of AIBN to generate an aliphatic C−H bond in the liberated ethers. The selenium atom remains immobilized during the entire synthesis, and in the cleavage step, tributylstannyl phenyl selenide is scavenged on the resin. Reaction monitoring was facilitated by the use of gradient high-resolution magic angle spinning 2D-NMR. This new linking method can be applied to solid-phase synthesis of many classes of organic compounds under a broad variation of reaction conditions.

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Thomas Ruhland

Discovery of 1-[2-(2,4-Dimethylphenylsulfanyl)phenyl]piperazine (Lu AA21004): A Novel Multimodal Compound for the Treatment of Major Depressive Disorder

Influence of Janus Particle Shape on Their Interfacial Behavior at Liquid–Liquid Interfaces

Janus Cylinders at Liquid–Liquid Interfaces

Counterion-Mediated Hierarchical Self-Assembly of an ABC Miktoarm Star Terpolymer

Selenium-Linking Strategy for Traceless Solid-Phase Synthesis: Direct Loading, Aliphatic C−H Bond Formation upon Cleavage and Reaction Monitoring by Gradient MAS NMR Spectroscopy

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