Stabilizing spin spirals and isolated skyrmions at low magnetic field exploiting vanishing magnetic anisotropy

Skyrmions are topologically protected non-collinear magnetic structures. Their stability is ideally suited to carry information in, e.g., racetrack memories. The success of such a memory critically depends on the ability to stabilize and manipulate skyrmions at low magnetic fields. The non-collinear Dzyaloshinskii-Moriya interaction originating from spin-orbit coupling drives skyrmion formation. It competes with Heisenberg exchange and magnetic anisotropy favoring collinear states. Isolated skyrmions in ultra-thin films so far required magnetic fields as high as several Tesla. Here, we show that isolated skyrmions in a monolayer of Co/Ru(0001) can be stabilized down to vanishing fields. Even with the weak spin-orbit coupling of the 4d element Ru, homochiral spin spirals and isolated skyrmions were detected with spin-sensitive scanning tunneling microscopy. Density functional theory calculations explain the stability of the chiral magnetic features by the absence of magnetic anisotropy energy

Tissue S100/calgranulin expression and blood neutrophil-to-lymphocyte ratio (NLR) in dogs with lower urinary tract urothelial carcinoma.

BACKGROUND Urothelial carcinoma (UC) is the most common neoplasm of the canine lower urinary tract, affecting approximately 2% of dogs. Elderly female patients of certain breeds are predisposed, and clinical signs of UC can easily be confused with urinary tract infection or urolithiasis. Diagnosis and treatment are challenging given the lack of disease-specific markers and treatments. The S100A8/A9 complex and S100A12 protein are Ca2+-binding proteins expressed by cells of the innate immune system and have shown promise as urinary screening markers for UC. The neutrophil-to-lymphocyte ratio (NLR) can also aid in distinguishing certain neoplastic from inflammatory conditions. Our study aimed to evaluate the tissue expression of S100/calgranulins and the blood NLR in dogs with UC. Urinary bladder and/or urethral tissue samples from dogs with UC (n = 10), non-neoplastic inflammatory lesions (NNUTD; n = 6), and no histologic changes (n = 11) were evaluated using immunohistochemistry. Blood NLRs were analyzed in dogs with UC (n = 22) or NNUTD (n = 26). RESULTS Tissue S100A12-positive cell counts were significantly higher in dogs with lower urinary tract disease than healthy controls (P = 0.0267 for UC, P = 0.0049 for NNUTD), with no significant difference between UC and NNUTD patients. Tissue S100A8/A9-positivity appeared to be higher with NNUTD than UC, but this difference did not reach statistical significance. The S100A8/A9+-to-S100A12+ ratio was significantly decreased in neoplastic and inflamed lower urinary tract tissue compared to histologically normal specimens (P = 0.0062 for UC, P = 0.0030 for NNUTD). NLRs were significantly higher in dogs with UC than in dogs with NNUTD, and a cut-off NLR of ≤ 2.83 distinguished UC from NNUTD with 41% sensitivity and 100% specificity. Higher NLRs were also associated with a poor overall survival time (P = 0.0417). CONCLUSIONS These results confirm that the S100/calgranulins play a role in the immune response to inflammatory and neoplastic lower urinary tract diseases in dogs, but the tissue expression of these proteins appears to differ from their concentrations reported in urine samples. Further investigations of the S100/calgranulin pathways in UC and their potential as diagnostic or prognostic tools and potential therapeutic targets are warranted. The NLR as a routinely available marker might be a useful surrogate to distinguish UC from inflammatory conditions

Publisher Correction: Stabilizing spin spirals and isolated skyrmions at low magnetic field exploiting vanishing magnetic anisotropy

Skyrmions are topologically protected non-collinear magnetic structures. Their stability is ideally suited to carry information in, e.g., racetrack memories. The success of such a memory critically depends on the ability to stabilize and manipulate skyrmions at low magnetic fields. The non-collinear Dzyaloshinskii-Moriya interaction originating from spin-orbit coupling drives skyrmion formation. It competes with Heisenberg exchange and magnetic anisotropy favoring collinear states. Isolated skyrmions in ultra-thin films so far required magnetic fields as high as several Tesla. Here, we show that isolated skyrmions in a monolayer of Co/Ru(0001) can be stabilized down to vanishing fields. Even with the weak spin-orbit coupling of the 4d element Ru, homochiral spin spirals and isolated skyrmions were detected with spin-sensitive scanning tunneling microscopy. Density functional theory calculations explain the stability of the chiral magnetic features by the absence of magnetic anisotropy energy

IL-33-induced metabolic reprogramming controls the differentiation of alternatively activated macrophages and the resolution of inflammation

Alternatively activated macrophages (AAMs) contribute to the resolution of inflammation and tissue repair. However, molecular pathways that govern their differentiation have remained incompletely understood. Here, we show that uncoupling protein-2-mediated mitochondrial reprogramming and the transcription factor GATA3 specifically controlled the differentiation of pro-resolving AAMs in response to the alarmin IL-33. In macrophages, IL-33 sequentially triggered early expression of pro-inflammatory genes and subsequent differentiation into AAMs. Global analysis of underlying signaling events revealed that IL-33 induced a rapid metabolic rewiring of macrophages that involved uncoupling of the respiratory chain and increased production of the metabolite itaconate, which subsequently triggered a GATA3-mediated AAM polarization. Conditional deletion of GATA3 in mononuclear phagocytes accordingly abrogated IL-33-induced differentiation of AAMs and tissue repair upon muscle injury. Our data thus identify an IL-4-independent and GATA3-dependent pathway in mononuclear phagocytes that results from mitochondrial rewiring and controls macrophage plasticity and the resolution of inflammation

Structure-based Development of Secondary Amines as Aspartic Protease Inhibitors

As novel promising scaffold for HIV protease inhibition pyrrolidine-derived inhibitors have recently been reported. In this thesis the stepwise improvement of this compound class to potent inhibitors of wildtype as well as selected mutant proteases utilizing rational drug discovery methods is reported. Based on the crystal structure of a (rac)-3,4-dimethyleneamino-pyrrolidine in complex with HIV-1 protease symmetric pyrrolidine-diesters possessing the same stereochemistry were synthesized following a chiral-pool approach. The most potent compounds of the series achieve one-digit micromolar inhibition towards wild type as well as two mutant proteases (Ile50Val and Ile84Val). The cocrystal structure of one derivative in complex with the Ile84Val HIV protease revealed that two inhibitor molecules are bound in the large active site cavity comprising an area encompassed by the catalytic dyad and the flaps in the open conformation. This is the first HIV protease cocrystal structure in which the open-flap conformation of the enzyme is stabilized by an inhibitor that concomitantly addresses the catalytic dyad. As an alternative approach towards HIV protease inhibitors, the development of symmetric 3,4-bis N-alkyl sulfonamide-pyrrolidines is described. The initial lead structure possessing benzene sulfonamide groups and benzyl substituents exhibited a Ki of 2.2 µM. The X-ray structure in complex with the HIV protease enabled the rational design of a second series of inhibitors and revealed three promising symmetric substitution patterns for further lead optimization: (A) Elongation of the P1/P1’-benzyl moieties with hydrophobic substituents in para-position, (B) ortho-substitution at the P2/P2’-phenyl ring systems, and (C) para-substitution at the P2/P2’-phenyl moieties. All three strategies were pursued and resulted in inhibitors with improved affinities up to 260 nM. To elucidate the underlying factors accounting for the SAR, the crystal structures of four representatives, at least one of each modification type, in complex with HIV protease were determined. These structures provided deeper insights into the protein–ligand interactions and the underlying principles of the SAR thus enabling to choose the most promising combination of substituents in the next design cycle. The combination of these substituents rendered a final inhibitor showing a significantly improved affinity of Ki = 74 nM and the cocrystal structure in complex with the HIV protease confirmed the successful application of the pursued optimization strategy. Subsequently the influence of the active site mutations Ile50Val and Ile84Val on these inhibitors is investigated by structural and kinetic analysis. Whereas the Ile50Val mutation leads to a significant decrease in affinity for all compounds in this series, they retain or even show increased affinity towards the crucial Ile84Val mutation. By detailed analysis of the crystal structures of two representatives in complex with wild-type and mutant proteases the structural basis of this phenomenon was elucidated. Inhibitors bearing smaller N-alkyl substituents revealed a selectivity profile not being explicable with the initial SAR. By cocrystallization of the most potent derivative of a small series with HIV-1 protease, astonishingly two different crystal forms, P2(1)2(1)2(1) and P6(1)22, were obtained. Structural analysis revealed two completely different binding modes, the interaction of the pyrrolidine nitrogen atom to the catalytic aspartates being the only similarity. Encouraged by the successful utilization of cyclic secondary amines as anchoring group in the development of HIV protease inhibitors, this strategy was expanded into a general approach for lead structure identification for aspartic proteases. An initial library comprising eleven inhibitors based on easily accessible achiral linear oligoamines was developed and screened against six selected aspartic proteases (HIV-1 protease, plasmepsin II, plasmepsin IV, renin, BACE-1, and pepsin). Several hits could be identified, among them selective as well as rather promiscuous inhibitors. The design concept was consecutively confirmed by determination of the crystal structure of two derivatives in complex with HIV-1 protease. The binding modes exhibit high similarity to the binding orientation of substrates as well as to that of peptidomimetic inhibitors. Using this information, a generalization of this binding situation to other aspartic proteases appears reasonable, thus providing a first insight into the observed structure-activity relationships

Auswirkungen der Fütterung mit ausschließlich hofeigenen Proteinträgern aus ökologischen Anbau in der Endmast auf die Mast- und Schlachtleistung von Schweinen

Der Versuch wurde durchgeführt, um den Effekt der Fütterung von unterschiedlichen Körnerleguminosenanteilen ohne die Verwendung von Ölkuchen oder konventionellen Komponenten im Endmastfutter zu quantifizieren. Es traten keine signifikanten Unterschiede in der Mast- und Schlachtleistung sowie der Fleischqualität auf zwischen den drei Futtergruppen, deren Endmastrationen 40 % Erbsen, 50 % Erbsen und 33 % Erbsen + 15 % blaue Süßlupinen enthielten. Alle Tiere zeigten gute Leistungen, die jedoch bei einem späteren Beginn des Einsatzes des Endmastfutters bei 70 kg LG anstelle von 50 kg LG noch besser gewesen wären. Die Verwendung von 15 % blauen Süßlupinen hatte keine negativen Einflüsse auf die Leistung und die Fleischqualität zur Folge