Project description:Bronchial leucocyte proteinase inhibitor (BLPI) is an 11 000 Mr protein found in human mucous secretions. This inhibitor apparently controls the serine proteinases elastase and cathepsin G, released from extravascular polymorphonuclear leucocytes. A simple, single-step chromatographic procedure for the isolation of BLPI based on its affinity for chymotrypsin was developed. The purified inhibitor was homogeneous by electrophoresis and gel filtration. Amino acid analyses were in close agreement with previous reports, and showed BLPI to be rich in proline and cystine, but lacking histidine. We have further characterized the role of BLPI with respect to human leucocyte elastase and cathepsin G by close examination of the kinetic parameters. Additionally, we have determined the kinetics of association (kon) and dissociation (koff) for BLPI with bovine trypsin and chymotrypsin. Equilibrium dissociation constants (Ki) of 1.87 X 10(-10) M, 4.18 X 10(-9) M, 8.28 X 10(-9) M and 2.63 X 10(-8) M were obtained for human leucocyte elastase, cathepsin G, bovine trypsin and chymotrypsin, respectively. These results are discussed with respect to BLPI's possible function in vivo and its role relative to other inhibitors in bronchial secretions.

Project description:Reduced caveolin-1 levels in lung fibroblasts from patients with scleroderma and the lungs of bleomycin-treated mice promote collagen overexpression and lung fibrosis. This study was undertaken to determine whether caveolin-1 is deficient in leucocytes from bleomycin-treated mice and patients with scleroderma and to examine the consequences of this deficiency and its reversal.Mice or cells received the caveolin-1 scaffolding domain (CSD) peptide to reverse the pathological effects of reduced caveolin-1 expression. In bleomycin-treated mice, the levels of caveolin-1 in leucocytes and the effect of CSD peptide on leucocyte accumulation in lung tissue were examined. To validate the results in human disease and to identify caveolin-1-regulated molecular mechanisms, monocytes and neutrophils were isolated from patients with scleroderma and control subjects and caveolin-1, extracellular signal-regulated protein kinase (ERK), c-Jun N-terminal kinase (JNK), p38, CXC chemokine receptor 4 (CXCR4) and matrix metalloproteinase 9 (MMP-9) expression/activation were evaluated. These parameters were also studied in monocytes treated with cytokines or CSD peptide.Leucocyte caveolin-1 is important in lung fibrosis. In bleomycin-treated mice, caveolin-1 expression was diminished in monocytes and CSD peptide inhibited leucocyte recruitment into the lungs. These observations are relevant to human disease. Monocytes and neutrophils from patients with scleroderma contained less caveolin-1 and more activated ERK, JNK and p38 than those from control subjects. Treatment with CSD peptide reversed ERK, JNK and p38 hyperactivation. Scleroderma monocytes also overexpressed CXCR4 and MMP-9, which was inhibited by the CSD peptide. Cytokine treatment of normal monocytes caused adoption of the scleroderma phenotype (low caveolin-1, high CXCR4 and MMP-9 and signalling molecule hyperactivation).Caveolin-1 downregulation in leucocytes contributes to fibrotic lung disease, highlighting caveolin-1 as a promising therapeutic target in scleroderma.

Project description:The Na+/H+ antiport is an important regulator of cellular volume, pH and Na+ concentration in mammalian cells. The stoichiometry of this antiporter has previously been shown to be a 1:1 exchange of internal H+ for external Na+. We have investigated this stoichiometry in human leucocytes by using a novel intracellular pH-clamping technique and measuring 22Na+ influx and H+ efflux in the same cells. As internal pH was lowered, the stoichiometry of H+/Na+ exchange rose to a mean +/- S.D. of 2.23 +/- 0.69. This mechanism allows a higher H+ efflux in the face of intracellular acid stress without causing excessive intracellular Na+ overload.

Project description:Magnetic skyrmions have the potential to provide solutions for low-power, high-density data storage and processing. One of the major challenges in developing skyrmion-based devices is the skyrmions' magnetic stability in confined helimagnetic nanostructures. Through a systematic study of equilibrium states, using a full three-dimensional micromagnetic model including demagnetisation effects, we demonstrate that skyrmionic textures are the lowest energy states in helimagnetic thin film nanostructures at zero external magnetic field and in absence of magnetocrystalline anisotropy. We also report the regions of metastability for non-ground state equilibrium configurations. We show that bistable skyrmionic textures undergo hysteretic behaviour between two energetically equivalent skyrmionic states with different core orientation, even in absence of both magnetocrystalline and demagnetisation-based shape anisotropies, suggesting the existence of Dzyaloshinskii-Moriya-based shape anisotropy. Finally, we show that the skyrmionic texture core reversal dynamics is facilitated by the Bloch point occurrence and propagation.

Project description:The interaction of secretory leucocyte proteinase inhibitor with bronchial mucins and glycopeptides was studied by means of c.d. spectroscopy. The interaction with mucins was characterized by an increase in organized structure of alpha-helical type, as evidenced by the appearance in the difference spectra of two positive bands at 208 and 218 nm. This phenomenon was correlated with the amount of inhibitor present in the mixtures, suggesting that the change was inherent to the inhibitor. Surprisingly, when the inhibitor was mixed with acid glycopeptides, difference c.d. spectra showed a decrease in organized structure, characterized by a negative minimum at 196 nm. Glycopeptides treated with neuraminidase gave similar profiles of difference spectra in three different mixtures, indicating that the interaction was smaller. The interaction between the inhibitor and mucins was also studied for its ability to modify in vitro the proteolytic activity of human leucocyte elastase. Mucins alone were degraded by that proteinase into glycopeptides of Mr 400,000-500,000, whereas mucins mixed with inhibitor before adding elastase were proteolysed to a lesser extent. These data demonstrate that the secretory leucocyte proteinase inhibitor interacts with mucins and consequently is capable of protecting the mucins against proteolysis by elastase.

Project description:Continuous assays of carnitine palmitoyltransferase were used to study the hysteretic behaviour of the enzyme. When reactions were started by adding mitochondria to complete reaction mixtures, there was a lag in the assay even in the absence of malonyl-CoA. When mitochondria were preincubated with malonyl-CoA in the absence of palmitoyl-CoA, there was a greater lag period in the assay of carnitine palmitoyltransferase, but this lag was less prominent at 37 degrees C than at 30 degrees C. Preincubation of mitochondria with malonyl-CoA did not change the sensitivity of the enzyme to inhibition by malonyl-CoA.

Project description:In this report we present a study of a series of Re(CO)3 pyridine-imine complexes with pendant phenol groups. We investigated the effects of the position of the phenol hydroxyl group (para, meta or ortho to the imine) on the steric and electronic characteristics of a series of Re(CO)3X(pyca-C6H4OH) compounds, where X = Cl, Br and pyca = pyridine-2-carbaldehyde imine. These compounds can be generated either via ligand synthesis followed by metal chelation (compound 4) or via a one-pot method (compounds 2, 3, 5 and 6). All six compounds show striking differences in pH-dependent UV-visible absorption based on the position of the phenol hydroxyl group.

Project description:EpRAS cells undergo EMT transition through hysteresis showing bistability of the system. The hysteresis transition is controlled by the negative feedback loop between miR-200s and Zeb1. Disruption of the feedback loop through the deletion of Z-box2 in the miR-200s cluster-2 promoter region changes the transition to unimodal without hysteresis. To determine the consequence of cells undergoing through hysteresis or unimodal transitions of EMT, herein we determined the transcriptomic profiles of EpRAS wild type and EpRAS-delZbox2 mutant cells, (designated as EpRAS-C2-2). To induce EMT, the cells were treated with 100pM TGFbeta for 3 days. Mock PBS treatment is used as control.

Project description:The SARS coronavirus main proteinase (M(pro)) is a key enzyme in the processing of the viral polyproteins and thus an attractive target for the discovery of drugs directed against SARS. The enzyme has been shown by X-ray crystallography to undergo significant pH-dependent conformational changes. Here, we assess the conformational flexibility of the M(pro) by analysis of multiple crystal structures (including two new crystal forms) and by molecular dynamics (MD) calculations. The MD simulations take into account the different protonation states of two histidine residues in the substrate-binding site and explain the pH-activity profile of the enzyme. The low enzymatic activity of the M(pro) monomer and the need for dimerization are also discussed.

Project description:Inhibitors of lysosomal acidification (4,4'-di-isothiocyanostilbene-2,2'-disulphonate, NN'-dicyclohexylcarbodi-imide, carbonyl cyanide m-chlorophenylhydrazone, NH4Cl and methylamine hydrochloride) did not alter cystine egress or countertransport in polymorphonuclear-leucocyte lysosome-rich granular fractions at pH 7.0. Together, 2 mM-MgCl2/MgATP and 90 mM-KCl stimulated cystine egress 2-fold, but this effect also was not influenced by inhibitors of ATP-dependent lysosomal acidification. MgCl2/MgATP stimulated cystine transport at pH 5.5, but the effect also occurred with MgCl2, MgSO4 or MnCl2 alone, was prevented by chelation, and was not seen with NaATP; therefore, it was considered a bivalent-cation, not an ATP, effect. Proton-pump-mediated acidification of lysosomes does not appear to be required for cystine transport in normal polymorphonuclear-leucocyte granular fractions, as reported for lymphoblast lysosomes.