Localization and origin of the intestinal peroxidase--effect of adrenal glucocorticoids

Peroxidase activity in rat intestine is stimulated two-fold after bilateral adrenalectomy and is reversed by dexamethasone (9-fluoro-11 beta,17,21-trihydroxy-16 alpha-methyl-1-4-pregnadiene-3,20-dione). The enzyme activity is inhibited on administration of various glucocorticoids of which dexamethasone acts as the most potent inhibitor of the enzyme in vivo. The change of enzyme activity results neither from alteration of the apparent Km of the enzyme nor from enzyme synthesis. Although a small amount of peroxidase is located in the intestinal epithelial cells, a large amount is present in the rest of the intestine. Histochemical studies indicate the presence of peroxidase in the lamina propria, the core of the intestinal villi which contains eosinophil. The peroxidase isolated from the epithelial cell-free intestine is similar to the peroxidase obtained from the pure eosinophil in terms of various physicochemical properties. Dexamethasone also inhibits the eosinophil peroxidase and decreases the number of both circulating and intestinal eosinophil. Studies indicate that a large part of the peroxidase of the intestine is contributed by invading eosinophil and dexamethasone inhibits the enzyme by sequestration of eosinophil both from intestine and blood possibly to the peripheral lymph nodes.     

Cryo-electron microscopy reveals the membrane insertion mechanism of V. cholerae hemolysin

Vibrio cholerae hemolysin (HlyA) is a 65?kDa pore-forming toxin which causes lysis of target eukaryotic cells by forming heptameric channels in the plasma membrane. Deletion of the 15?kDa C-terminus β-prism carbohydrate-binding domain generates a 50?kDa truncated variant (HlyA50) with 1000-fold-reduced pore-forming activity. Previously, we showed by cryo-electron microscopy that the two toxin oligomers have central channels, but the 65?kDa toxin oligomer is a seven-fold symmetric structure with bowl-, ring-, and arm-like domains, whereas the 50?kDa oligomer is an asymmetric jar-like heptamer. In the present study, we determined three-dimensional(3D) structures of HlyA and HlyA50 in presence of erythrocyte stroma and observed that interaction of the 65?kDa toxin with the stroma induced a significant decrease in the height of the β-barrel oligomer with a change in conformation of the ring- and arm-like domains of HlyA. These features were absent in interaction of HlyA50 with stroma. We propose that this conformational transition is critical for membrane-insertion of the toxin.     

Bandwidth Enhancement of Planar Terahertz Metasurfaces via Overlapping of Dipolar Modes

Plasmonics - We present enhancement of operational bandwidths of planar terahertz metasurfaces by incorporating a complex unit cell that consists of a pair of concentric ring resonators. The inner...     

Reactive oxygen species play a role in P2X7 receptor-mediated IL-6 production in spinal astrocytes

Purinergic Signalling - Astrocytes mediate a remarkable variety of cellular functions, including gliotransmitter release. Under pathological conditions, high concentrations of the purinergic...     

Connecting species’ geographical distributions to environmental variables: range maps versus observed points of occurrence

Connecting the geographical occurrence of a species with underlying environmental variables is fundamental for many analyses of life history evolution and for modeling species distributions for both basic and practical ends. However, raw distributional information comes principally in two forms: points of occurrence (specific geographical coordinates where a species has been observed), and expert-prepared range maps. Each form has potential short-comings: range maps tend to overestimate the true occurrence of a species, whereas occurrence points (because of their frequent non-random spatial distribution) tend to underestimate it. Whereas previous comparisons of the two forms have focused on how they may differ when estimating species richness, less attention has been paid to the extent to which the two forms actually differ in their representation of a species’ environmental associations. We assess such differences using the globally distributed avian order Galliformes (294 species). For each species we overlaid range maps obtained from IUCN and point-of-occurrence data obtained from GBIF on global maps of four climate variables and elevation. Over all species, the median difference in distribution centroids was 234 km, and median values of all five environmental variables were highly correlated, although there were a few species outliers for each variable. We also acquired species’ elevational distribution mid-points (mid-point between minimum and maximum elevational extent) from the literature; median elevations from point occurrences and ranges were consistently lower (median −420 m) than mid-points. We concluded that in most cases occurrence points were likely to produce better estimates of underlying environmental variables than range maps, although differences were often slight. We also concluded that elevational range mid-points were biased high, and that elevation distributions based on either points or range maps provided better estimates.     

Long-chain base kinase1 promotes salicylic acid-mediated stomatal immunity in Arabidopsis thaliana

Journal of Plant Biochemistry and Biotechnology - Stomatal closure is an inducible form of defense that plants exert upon activation of pattern-triggered immunity (PTI). Arabidopsis long-chain base...