The coordinated growth of epidermal cells in plant leaves creates the characteristic jigsaw puzzle appearance of the pavement cells. Now, Xu et al. (2010) report that AUXIN-BINDING PROTEIN 1 mediates auxin activation of two GTPase pathways that antagonistically control planar morphogenesis of leaf epidermal cells to create this distinctive pattern. 相似文献
Recent studies have suggested that Rap1 and Rap2 small GTP-binding proteins are both expressed in human red blood cells (RBCs). In this work, we carefully examined the expression of Rap proteins in leukocytes- and platelets-depleted RBCs, whose purity was established on the basis of the selective expression of the beta2 subunit of the Na+/K+ -ATPase, as verified according to the recently proposed "beta-profiling test" [J.F. Hoffman, A. Wickrema, O. Potapova, M. Milanick, D.R. Yingst, Na pump isoforms in human erythroid progenitor cells and mature erythrocytes, Proc. Natl. Acad. Sci. U. S. A. 99 (2002) 14572-14577]. In pure RBCs preparations, Rap2, but not Rap1 was detected immunologically. RT-PCR analysis of mRNA extracted from highly purified reticulocytes confirmed the expression of Rap2b, but not Rap2a, Rap2c, Rap1a or Rap1b. In RBCs, Rap2 was membrane-associated and was rapidly activated upon treatment with Ca2+/Ca2+ -ionophore. In addition, Rap2 segregated and was selectively enriched into microvesicles released by Ca2+ -activated RBCs, suggesting a possible role for this GTPase in membrane shedding. 相似文献
Probiotics form a promising strategy to maintain intestinal health. Milks fermented with probiotic strains, such as the Lactobacillus paracasei ST11, are largely commercialized in Brazil and form a low-cost alternative to probiotic pharmaceutical formulations. In this study, we assessed the probiotic effects of milk fermented by L. paracasei ST11 (administered through fermented milk) in a Salmonella typhimurium infection model in BALB/c mice. We observed in this murine model that the applied probiotic conferred protective effects against S. typhimurium infection, since its administration reduced mortality, weight loss, translocation to target organs (liver and spleen) and ileum injury. Moreover, a reduction in the mRNA expression of pro-inflammatory cytokines such as IFN-γ, IL-6, TNF-α and IL-17 in animals that received the probiotic before challenge was observed. Additionally, the ileum microbiota was better preserved in these animals. The present study highlights a multifactorial protective aspect of this commercial probiotic strain against a common gastrointestinal pathogen.
Virus-induced exacerbations of Chronic Obstructive Pulmonary Disease (COPD) are a significant health burden and occur even in those receiving the best current therapies. Rhinovirus (RV) infections are responsible for half of all COPD exacerbations. The mechanism by which exacerbations occur remains undefined, however it is likely to be due to virus-induced inflammation. Given that phophodiesterase 4 (PDE4) inhibitors have an anti-inflammatory effect in patients with COPD they present a potential therapy prior to, and during, these exacerbations.
Methods
In the present study we investigated whether the PDE4 inhibitor piclamilast (10-6 M) could alter RV or viral mimetic (5 μg/mL of imiquimod or poly I:C) induced inflammation and RV replication in primary human airway smooth muscle cells (ASMC) and bronchial epithelial cells (HBEC). The mediators IL-6, IL-8, prostaglandin E2 and cAMP production were assayed by ELISA and RV replication was assayed by viral titration.
Results
We found that in ASMCs the TLR3 agonist poly I:C induced IL-8 release was reduced while induced IL-6 release by the TLR7/8 agonist imiquimod was further increased by the presence of piclamilast. However, in RV infected ASMCs, virus replication and induced mediator release were unaltered by piclamilast, as was also found in HBECs. The novel findings of this study reveal that although PDE inhibitors may not influence RV-induced cytokine production in ASMCs and replication in either ASMCs or HBECs, they have the capacity to be anti-inflammatory during TLR activation by modulating the induction of these chemotactic cytokines.
Conclusion
By extrapolating our in vitro findings to exacerbations of COPD in vivo this suggests that PDE4 inhibitors may have beneficial anti-inflammatory properties when patients are infected with bacteria or viruses other than RV. 相似文献
Nine out of 22 microsatellite primers tested were successfully amplified on three samples of cod Gadus morhua L. (two contemporary and one archived otolith samples). All loci were polymorphic (5–23 alleles/locus). The average observed heterozygosity across loci and samples was 0.625, ranging from 0.294 to 0.895 at each locus. All loci were under Hardy–Weinberg equilibrium, except PGmo56 that showed significant excess of heterozygotes in all studied samples. The isolated loci were suitable for degraded DNA and therefore useful for conducting a long‐term temporal study with DNA obtained from archived otoliths of cod. 相似文献
This work shows that a deep‐sea protein, 3LEZ, with known in vitro β‐lactamase activity, proved stable, substantially in the conformation detected by X‐ray diffraction of the crystal, when subjected to molecular‐dynamics (MD) simulations under conditions compatible with shallow seas. Docking simulations showed that the β‐lactamase active site S85 of 3LEZ (S70 in Ambler numbering) is the preferential binding pocket for not only β‐lactam antibiotics and inhibitors, but, surprisingly, also for a wide variety of other biologically active compounds in various chemical classes, including marine metabolites. In line with the in vitro β‐lactamase activity, a) affinities on docking β‐lactam antibiotics and inhibitors onto 3LEZ were found to roughly parallel published Km and Ki values, obtained from Michaelis? Menten kinetics under room conditions, and b) DFT calculations agreed with experiments that the irreversible reaction of the β‐lactamase inhibitor clavulanic acid with the whole S85 catalytic center of 3LEZ is spontaneous. These observations must be viewed in the light that a) the compounds in other chemical classes showed comparable affinities, and, in some cases, even higher than β‐lactams, for the S85 active site, b) Km and Ki data are not available at the high hydrostatic pressure of the deep sea, where 3LEZ is believed to have evolved, c) an inverse order of affinities for the β‐lactams, with respect to both experimentation and simulations at room conditions, was observed from comparative docking simulations with 3LEZ derived from MD under high hydrostatic pressure. Although MD requires a general assessment for high hydrostatic pressure before c) above is given the same weight as all other observations, this work questions the conclusion that the in vitro determined β‐lactamase activity represents the ecological role of 3LEZ. 相似文献
H-NOX (Heme Nitric Oxide/Oxygen) domain has widespread occurrence, either standalone or associated with functional proteins, sending signals for functions that span from modulating vasodilation and neurotransmission with humans to competition and symbiosis with bacteria. Understanding how H-NOX works, and possibly intervening on degeneration for health purposes, needs first clarifying how diatomic gases are relocated through this protein in relation to the deeply buried heme. To this end, a biased form of molecular dynamics, i.e., Random Accelaration Molecular Dynamics (RAMD), is used by applying a randomly oriented tiny force to heme-dissociated CO of Nostoc sp. H-NOX, while changing randomly the direction of the force, if CO travels less than specified for the evaluated block. The result is that a large area of the protein, comprising amino acids from serine 44 to leucine 67 along two adjacent helices, offers a broad portal to CO from the surrounding medium to the deeply buried heme. Most traffic is concentrated through a channel lined by tyrosine 49, valine 52, and leucine 67. This modifies the picture drawn from mapping Xe cavities on pressurizing Nostoc sp. H-NOX with Xe gas. What is the main pathway with Xe-cavity mapping becomes a minor pathway with RAMD, and vice versa. The reason is that the fluctuating protein under MD creates clefts for CO slipping through, as it is expected to occur in nature. 相似文献
Caulerpa taxifolia (Vahl) C. Agardh (Ulvophyceae, Caulerpales) is an alga of tropical origin that was accidentally introduced into the Mediterranean sea in 1984, where this species can reach an abundance that has never been described in tropical endemic regions. It is known that caulerpacean algae can develop an efficient strategy against grazers consisting of the synthesis of repulsive of toxic secondary metabolites: we report here the first study of the toxicity of purified secondary metabolites and raw extracts fromC. taxifolia from the Mediterranean.Toxicity was evaluated on three models: mice (lethality), mammalian cells in culture (cytotoxicity) and sea urchin eggs (disturbance of cell proliferation). Aqueous extracts are only active on fibroblasts and mice. In the three toxicity models a seasonal variation of toxicity is observed for the crude methanol extract as well as a decrease of this activity whenC. taxifolia from the Mediterranean is kept in aquaria. Pure compounds exhibit different toxicity depending on the assay. 10,11-epoxycaulerpenyne is the most active substance on mice and fibroblasts whereas taxifolial A and D are inactive or only weakly toxic. Among the four tested compounds caulerpenyne, the major metabolite ofC. taxifolia, is the most active on sea urchin eggs. Caulerpenyne may therefore represent an ecological risk for microorganisms and the eggs of multicellular animals living close to this alga. The ecological impact of this toxicity on marine organisms and the interaction of this alga with the herbivorous fauna are discussed. 相似文献
In this work, by applying a non‐deterministic, randomly‐oriented minimal force to the dissociated CO ligand of the MauG‐CO system, the molecular‐dynamics (MD) behavior of this system could be quickly unraveled. It turned out that CO has no marked directional egress from the high‐spin c‐heme iron distal pocket. Rather, CO is able to exploit all interstices created during the protein fluctuations. Nonetheless, no steady route toward the surrounding solvent was ever observed: CO jumped first into other binding pockets before being able to escape the protein. In a few cases, on hitting the surrounding H2O molecules, CO was observed to reverse direction, re‐entering the protein. A contention that conformational inversion of the P107 ring provides a gate to the iron ion is not supported by the present simulations. 相似文献
H‐NOX (Heme Nitric Oxide/Oxygen) domain has widespread occurrence, either standalone or associated with functional proteins, sending signals for functions that span from modulating vasodilation and neurotransmission with humans to competition and symbiosis with bacteria. Understanding how H‐NOX works, and possibly intervening on degeneration for health purposes, needs first clarifying how diatomic gases are relocated through this protein in relation to the deeply buried heme. To this end, a biased form of molecular dynamics, i.e., Random Accelaration Molecular Dynamics (RAMD), is used by applying a randomly oriented tiny force to heme‐dissociated CO of Nostoc sp. H‐NOX, while changing randomly the direction of the force, if CO travels less than specified for the evaluated block. The result is that a large area of the protein, comprising amino acids from serine 44 to leucine 67 along two adjacent helices, offers a broad portal to CO from the surrounding medium to the deeply buried heme. Most traffic is concentrated through a channel lined by tyrosine 49, valine 52, and leucine 67. This modifies the picture drawn from mapping Xe cavities on pressurizing Nostoc sp. H‐NOX with Xe gas. What is the main pathway with Xe‐cavity mapping becomes a minor pathway with RAMD, and vice versa. The reason is that the fluctuating protein under MD creates clefts for CO slipping through, as it is expected to occur in nature. 相似文献