Thiol Peroxidase Protects Salmonella enterica from Hydrogen Peroxide Stress In Vitro and Facilitates Intracellular Growth

At present, Salmonella is considered to express two peroxiredoxin-type peroxidases, TsaA and AhpC. Here we describe an additional peroxiredoxin, Tpx, in Salmonella enterica and show that a single tpx mutant is susceptible to exogenous hydrogen peroxide (H₂O₂), that it has a reduced capacity to degrade H₂O₂ compared to the ahpCF and tsaA mutants, and that its growth is affected in activated macrophages. These results suggest that Tpx contributes significantly to the sophisticated defense system that the pathogen has evolved to survive oxidative stress.Salmonella is an important human pathogen which causes a variety of diseases, including gastroenteritis, septicemia, and typhoid fever. In the host, salmonellae reside inside phagocytic cells and are exposed to various host defense mechanisms, including oxidative stress (13). The production of superoxide anion (O₂⁻) is crucial, as individuals with chronic granulomatous disease, which is due to a defective phagocyte NADPH oxidase, are more susceptible to infections with Salmonella (10). Likewise, diminished NADPH oxidase activity leads to increased susceptibility to Salmonella in murine macrophages (20-22, 25). Superoxide anion (O₂⁻) is weakly reactive and fails to pass through the bacterial cell wall. After conversion to H₂O₂ by either spontaneous or enzymatic dismutation by superoxide dismutases, it readily diffuses into the bacterial cell and forms reactive hydroxyl radicals (OH) that damage macromolecules such as DNA, proteins, and lipids (12, 17).In principle, Salmonella possesses two classes of enzymes to degrade H₂O₂. Catalases degrade H₂O₂ to water and molecular oxygen independent of an additional reductant. Peroxiredoxin-type peroxidases (peroxiredoxins) reduce organic hydroperoxides to alcohols and hydrogen peroxide to water at the expense of NADH or NADPH. In a recent study by Hébrard et al., three members of the catalase family, KatG, KatE, and KatN, and two members of the peroxiredoxin family, AhpC and TsaA, were characterized in Salmonella (14). Previously it had been shown that single katE, katG, and katN Salmonella mutants did not show increased susceptibility to exogenous H₂O₂ (3, 24). In macrophages a katG katE katN triple mutant had no growth defect, whereas an ahpCF tsaA double mutant showed a reduced growth rate in macrophages (14). These observations point out the multiple routes that have evolved in Salmonella to protect the pathogen against oxidative stress and suggest that peroxiredoxins play a dominant role in the antioxidant defense during infection. In this study we characterized a third peroxiredoxin-type peroxidase, Tpx. Surprisingly, a simple tpx mutant of Salmonella enterica serovar Typhimurium (S. Typhimurium) was more susceptible to exogenous H₂O₂ than the wild type (WT). The mutant grew less well in activated macrophages and showed a reduced peroxidase activity toward H₂O₂.     

Effects of Glucose, Insulin, and Supernatant from Pancreatic β-cells on Brain–Pancreas Relative Protein in Rat Hippocampus

Brain–pancreas relative protein (BPRP) is a novel protein that mainly expresses in brain and pancreas. In our previous study, we found that various stressors significantly decreased the expression of BPRP in pancreas in vivo, accompanied by changes in insulin and glucose levels, and that expression of BPRP in pancreas also decreased significantly in diabetic rats induced by Streptozocin (STZ). All these findings suggest that BPRP may be a glucose or insulin-sensitive protein. However, how the changes in insulin or glucose levels influence the expression of BPRP in hippocampus requires further study. Here, we investigated the effects of insulin or glucose on the expression of BPRP in primary cultured hippocampal neurons. We supplied hippocampal neurons with glucose, insulin, or supernatant from pancreatic β-cells, which secrete insulin into the supernatant. Our data showed that insulin had beneficial effect on the viability while no significant effect on the expression of BPRP in hippocampal neurons. On the contrary, 40 mM glucose or free glucose culture significantly decreased the expression of BPRP, while had no significant effect on the viability and apoptosis of hippocampal neurons. Further study showed that levels of insulin in the supernatant collected from pancreatic β-cells medium changed over days, and that supernatant increased the viability of hippocampal neurons, while it had no obvious effect on the expression of BPRP in hippocampal neurons. These results suggest that BPRP may be a glucose-sensitive protein.     

MgSlt2, a cellular integrity MAP kinase gene of the fungal wheat pathogen Mycosphaerella graminicola, is dispensable for penetration but essential for invasive growth

Among expressed sequence tag libraries of Mycosphaerella graminicola isolate IPO323, we identified a full-length cDNA clone with high homology to the mitogen-activated protein (MAP) kinase Slt2 in Saccharomyces cerevisiae. This MAP kinase consists of a 1242-bp open reading frame, and encodes a 414-amino-acid protein. We designated this homolog MgSlt2, generated MgSlt2 knockout strains in M. graminicola isolate IPO323, and found several altered phenotypes in vitro as well as in planta. In yeast glucose broth, MgSlt2 disruptants showed a defective polarized growth in the tip cells upon aging, causing substantial local enlargements culminating in large swollen cells containing two to four nuclei. The MgSlt2 disruptants showed a significantly increased sensitivity to several fungicides, including miconazole (2x), bifonazole (>4x), imazalil (5x), and cyproconazole (10x), and were hypersensitive to glucanase. Unlike the wild type, MgSlt2 disruptants did not produce aerial mycelia and did not melanize on potato dextrose agar. Although cytological analysis in planta showed normal penetration of wheat stomata by the germ tubes of the MgSlt2 disruptants, subsequently formed hyphal filaments frequently were unable to branch out and establish invasive growth resulting in highly reduced virulence, and prevented pycnidia formation. Therefore, we conclude that MgSlt2 is a new pathogenicity factor in M. graminicola.     

Therapeutic application of long-circulating liposomal glucocorticoids in auto-immune diseases and cancer

Glucorticoids are potent drugs that have a multitude of pharmacological actions both at genomic and non-genomic levels. Many of the diseases in which glucorticoids are routinely administered are featured by angiogenesis and enhanced capillary permeability, permitting targeted delivery using long-circulating drug delivery systems. By encapsulation of glucorticoids in long-circulating liposomes, drug levels at the site of the pathology are markedly higher, increasing and prolonging therapeutic efficacy in models of rheumatoid arthritis, multiple sclerosis, and cancer.     

FGFR4 GLY388 isotype suppresses motility of MDA-MB-231 breast cancer cells by EDG-2 gene repression

Clinical investigations of an FGFR4 germline polymorphism, resulting in substitution of glycine by arginine at codon 388 (G388 to R388), have shown a correlation between FGFR4 R388 and aggressive disease progression in cancer patients. Here, we studied the differential effects of the two FGFR4 isotypes on cellular signalling and motility in the MDA-MB-231 human breast cancer cell model. cDNA array analysis showed the ability of FGFR4 G388 to suppress expression of specific genes involved in invasiveness and motility. Further investigations concentrating on cell signalling and motility revealed an abrogation of phosphatidylinositol-3-kinase-dependent LPA-induced Akt activation and cell migration due to downregulation of the LPA receptor Edg-2 in FGFR4 G388-expressing MDA-MB-231 cells. Moreover, FGFR4 G388 expression attenuated the invasivity of the breast cancer cell line and decreased small Rho GTPase activity. We conclude that FGFR4 G388 suppresses cell motility of invasive breast cancer cells by altering signalling pathways and the expression of genes that are required for metastasis. Therefore, the positive effect of FGFR4 R388 on disease progression appears to result from a loss of the tumour suppressor activity displayed by FGFR4 G388 rather than the acquisition or enhancement of oncogenic potential.     

Differentiation-dependent expression of hypothetical proteins in the neuroblastoma cell line N1E-115

Several protein cascades, including signaling, cytoskeletal, chaperones, metabolic, and antioxidant proteins, have been shown to be involved in the process of neuronal differentiation (ND) of neuroblastoma cell lines. No systematic approach to detect hitherto unknown and unnamed proteins or structures that have been predicted upon nucleic acid sequences in ND has been published so far. We therefore decided to screen hypothetical protein (HP) expression by protein profiling. Two-dimensional gel electrophoresis with subsequent matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MALDI-TOF/TOF) identification was used for expression analysis of undifferentiated and dimethylsulfoxide-induced neuronally differentiated N1E-115 cells. We unambiguously identified six HPs: Q8C520, Q99LF4, Q9CXS1, Q9DAF8, Q91WT0, and Q8C5G2. A prefoldin domain in Q91WT0, a t-SNARE domain in Q9CXS1, and a bromodomain were observed in Q8C5G2. For the three remaining proteins, no putative function using Pfam, BLOCKS, PROSITE, PRINTS, InterPro, Superfamily, CoPS, and ExPASy could be assigned. While two proteins were present in both cell lines, Q9CXS1 was switched off (i.e., undetectably low) in differentiated cells only, and Q9DAF8, Q91WT0, and Q8C5G2 were switched on in differentiated cells exclusively. Herein, using a proteomic approach suitable for screening and identification of HP, we present HP structures that have been only predicted so far based upon nucleic acid sequences. The four differentially regulated HPs may play a putative role in the process of ND.     

A dimensionless number analysis of the hybridization process in diffusion- and convection-driven DNA microarray systems

The present theoretical analysis aims at providing a general understanding of the combined effect the many different process variables have on the hybridization rate in diffusion- and convection-driven DNA microarray systems. It is shown that all process variables can be grouped into only four different dimensionless numbers (the Damkohler number Da, the dimensionless association constant kappa(A), the dimensionless initial concentration C'(0) and a geometrical ratio alpha). These four numbers have a straightforward physical meaning and only contain easily measurable parameters. Reducing the solution space from 7D to 4D, the dimensionless number representation greatly facilitates the insight in the conditions leading to the occurrence of diffusion-limited hybridization rates in both diffusion- and convection-driven DNA microarray systems. This in turn simplifies their design and the interpretation of the experimental results that are obtained with these systems.     

Mass spectrometrical identification of brain proteins including highly insoluble and transmembrane proteins

Conventional two-dimensional electrophoresis (2DE) is the main technique used for protein profiling of tissues and cells, however separation of strongly acidic, basic or highly insoluble proteins is still limited. A series of methods have been proposed to cope with this problem and the use of discontinuous gel electrophoresis in an acidic buffer system using the cationic detergent benzyldimethyl-n-hexadecylammonium chloride (16-BAC) with subsequent SDS-PAGE followed by mass spectrometry showed that results from 2DE can be complemented by this approach. It was the aim of this study to separate and identify proteins from whole mouse brain that were not demonstrated by 2DE. For this purpose samples were homogenised, soluble proteins were removed by ultracentrifugation and the water-insoluble pellet was resuspended in a mixture containing urea, 16-BAC, glycerol, pyronine Y and dithiothreitol. Electrophoresis was run in the presence of 16-BAC, the strip from the gel containing separated proteins was cut out and was re-run on SDS-PAGE. Protein spots were analyzed by MALDI-TOF-TOF mass spectrometry. One hundred and six individual proteins represented by 187 spots were unambiguously identified consisting of 42 proteins with predicted pI values of pI>8.0, 25 with a 6.0相似文献   

First evidence of feline herpesvirus, calicivirus, parvovirus, and Ehrlichia exposure in Brazilian free-ranging felids

Serum samples from 18 pumas (Puma concolor), one ocelot (Leopardus pardalis), and two little spotted cats (Leopardus tigrinus) collected from free-ranging animals in Brazil between 1998 and 2004 were tested by indirect immunofluorescence (IFA) for antibodies to feline herpesvirus 1 (FHV 1), calicivirus (FCV), coronavirus (FCoV), parvo-virus (FPV), Ehrlichia canis, Anaplasma pha-gocytophilum, and Bartonella henselae. Serum samples also were tested, by Western blot and ELISA, for feline leukemia virus (FeLV) specific antibodies and antigen, respectively, by Western blot for antibodies to feline immunodeficiency virus (FIV), and by indirect ELISA for antibodies to puma lentivirus (PLV). Antibodies to FHV 1, FCV, FCoV, FPV, FeLV, FIV, PLV or related viruses, and to B. henselae were detected. Furthermore, high-titered antibodies to E. canis or a closely related agent were detected in a puma for the first time.