Synthesis of phosphatidylcholine, a typical eukaryotic phospholipid, is necessary for full virulence of the intracellular bacterial parasite Brucella abortus

Phosphatidylcholine (PC) is a typical eukaryotic phospholipid absent from most prokaryotes. Thus, its presence in some intracellular bacteria is intriguing as it may constitute host mimicry. The role of PC in Brucella abortus was examined by generating mutants in pcs (BApcs) and pmtA (BApmtA), which encode key enzymes of the two bacterial PC biosynthetic routes, the choline and methyl-transferase pathways. In rich medium, BApcs and the double mutant BApcspmtA but not BApmtA displayed reduced growth, increased phosphatidylethanolamine and no PC, showing that Pcs is essential for PC synthesis under these conditions. In minimal medium, the parental strain, BApcs and BApmtA showed reduced but significant amounts of PC suggesting that PmtA may also be functional. Probing with phage Tb, antibiotics, polycations and serum demonstrated that all mutants had altered envelopes. In macrophages, BApcs and BApcspmtA showed reduced ability to evade fusion with lysosomes and establish a replication niche. In mice, BApcs showed attenuation only at early times after infection, BApmtA at later stages and BApcspmtA throughout. The results suggest that Pcs and PmtA have complementary roles in vivo related to nutrient availability and that PC and the membrane properties that depend on this typical eukaryotic phospholipid are essential for Brucella virulence.     

Synthesis of multiarm star poly(glycerol)-block-poly(2-hydroxyethyl methacrylate)

Well-defined multiarm star block copolymers poly(glycerol)-b-poly(2-hydroxyethyl methacrylate) (PG-b-PHEMA) with an average of 56, 66, and 90 PHEMA arms, respectively, have been prepared by atom transfer radical polymerization (ATRP) of HEMA in methanol by a core-first strategy. The hyperbranched macroinitiators employed were prepared on the basis of well-defined hyperbranched polyglycerol by esterification with 2-bromoisobutyryl bromide. Polydispersites M(w)/M(n) of the new multiarm stars were in the range of 1.11-1.82. Unexpectedly, with the combination of CuCl/CuBr(2)/2,2'-bipyridyl as catalyst, the polymerization conversion can be driven to maximum values of 79%. The control of CuCl catalyst concentration is also very important to achieve high conversion and narrow polydispersity. The absolute M(n) values of the obtained multiarm star polymers were in good agreement with the calculated ones, and the highest M(n) values of the multiarm star copolymer is around 10(6) g/mol. Kinetic analysis shows that an induction period exists in the polymerization of HEMA. After this induction period, a linear dependence of ln ([M](0)/[M](t)()) on time was observed. Due to the star architecture, the viscosity of the obtained multiarm star PHEMA is much lower than that of linear PHEMA.     

Limited Interference at the Early Stage of Infection between Two Recombinant Novirhabdoviruses: Viral Hemorrhagic Septicemia Virus and Infectious Hematopoietic Necrosis Virus

The genome sequence of a hypervirulent novirhabdovirus, viral hemorrhagic septicemia virus (VHSV) French strain 23-75, was determined. Compared to the genome of the prototype Fil3 strain, a number of substitutions, deletions, and insertions were observed. Following the establishment of a plasmid-based minigenome replication assay, recombinant VHSV (rVHSV) was successfully recovered. rVHSV exhibits wild-type-like growth properties in vitro as well as in vivo in rainbow trout. The dispensable role of NV for the novirhabdovirus replication was confirmed by generating rVHSV-ΔNV, in which the NV gene was deleted. This deletion mutant was shown to be as debilitated as that previously described for infectious hematopoietic necrosis virus (IHNV), a distantly related novirhabdovirus (S. Biacchesi, M. I. Thoulouze, M. Bearzotti, Y. X. Yu, and M. Bremont, J. Virol. 74:11247-11253, 2000). Recombinant VHSV and IHNV expressing tdTomato and GFP_max reporter genes, respectively, were generated, demonstrating the potential of these rhabdoviruses to serve as viral vectors. Interestingly, rIHNV-GFP_max could be recovered using the replicative complex proteins of either virus, whereas rVHSV-Tomato could be recovered only by using its own replicative complex, reflecting that the genome signal sequences of VHSV are relatively distant from those of IHNV and do not allow their cross-recognition. Moreover, the use of heterologous protein combinations underlined the importance of strong protein-protein interactions for the formation of a functional ribonucleoprotein complex. The rIHNV-GFP_max and rVHSV-Tomato viruses were used to simultaneously coinfect cell monolayers. It was observed that up to 74% of the cell monolayer was coinfected by both viruses, demonstrating that a limited interference phenomenon exists during the early stage of primary infection, and it was not mediated by a cellular antiviral protein or by some of the viral proteins.Viral hemorrhagic septicemia virus (VHSV) is a member of the Novirhabdovirus genus in the Rhabdoviridae family. VHSV is considered by many countries and international organizations to be one of the most important viral pathogens of finfish (38). During recent years, VHSV has been isolated from at least 50 different species from marine and freshwater fish and is present throughout the northern hemisphere (45). The transmission of the virus from fish to fish occurs directly through the water or by contact between infected and healthy individuals. VHSV is thought to enter the body through the gills or possibly through wounds on the skin. However, we recently showed that fins may represent the main portal of entry for the novirhabdoviruses (25). The virus usually causes severe hemorrhages in the skin, muscles, eyes, kidney, and liver, with mortality rates as high as 90%. As for all members of the Rhabdoviridae family, the VHSV genome consists of a negative-sense single-stranded RNA molecule of about 11 kb encoding five structural proteins: N, the nucleoprotein; P, a polymerase-associated protein; M, the matrix protein; G, the unique viral surface glycoprotein; and L, the large RNA-dependent RNA polymerase. In addition, like the other members of the Novirhabdovirus genus, such as infectious hematopoietic necrosis virus (IHNV), the VHSV genome encodes a small nonstructural NV protein, which has been shown to be dispensable for IHNV replication in cell culture and is involved in virus-induced pathogenicity in rainbow trout (8, 50).The sequence analysis of the glycoprotein (G) and nucleoprotein (N) genes of VHSV has shown that VHSV isolates can be divided into four genotypes that generally correlate with geographic location rather than the host species (4, 19, 47, 49). Isolates belonging to VHSV genotypes I, II, and III are present in continental Europe, the north Atlantic Ocean, the Baltic Sea, the North Sea, and waters around Scotland. Genotype IV consists of isolates from the marine environment in North America. Recently, viral hemorrhagic septicemia has become an emerging disease of freshwater fish in the Great Lakes region of North America (2, 54). Thus, it is quite obvious that VHSV is becoming a worldwide and very-broad-host-range fish virus and that the development of efficient vaccines is needed. Reverse genetics, allowing the introduction of targeted modifications into the viral genome and the production of attenuated live vaccine, may help to fight this rapidly spreading and emerging virus. It is routinely observed in farm trouts exposed to viral diseases that VHSV and IHNV coexist (26). By developing experimental coinfections by VHSV and IHNV in rainbow trout, Brudeseth et al. studied the pathogenesis and virus distribution (10). They found that both viruses established an infection and raised similar virus titers in kidneys, but the distribution of IHNV was more restricted in internal organs during the acute stage of the infection and was not detected in the brain. However, it generally is admitted that infection by one virus renders host cells resistant to a superinfecting virus.Superinfection exclusion, also known as homologous interference, is the phenomenon in which a cell infected with one type of virus or transfected with a viral replicon becomes resistant to a secondary infection with the same virus, whereas infection with unrelated viruses normally is unaffected (40, 51). Superinfection exclusion has been observed in a broad range of viruses, including vaccinia virus (14, 18), human immunodeficiency virus (HIV) (36, 37), vesicular stomatitis virus (VSV) (32, 43, 53), Borna disease virus (BDV) (24), measles virus (34), Sindbis virus (28), Semliki Forest virus (44), rubella virus (15), hepatitis C virus (HCV) (40, 51), and bovine viral diarrhea virus (BVDV) (31). Mechanisms of exclusion are diverse and have not been determined in all cases, but mechanisms described so far are caused by competition among different viruses for critical replicative pathways (for example, the use of the same receptors for the entry) or depend on the direct interaction of products of the primary infection with the secondary infecting virus. For example, the superinfection exclusion of VSV was found to be caused by a combination of three distinct effects on endocytosis by VSV-infected cells: (i) a decreased rate of the formation of endocytic vesicles, (ii) a decreased rate of the internalization of receptor-bound ligands, and (iii) a competition with newly synthesized virus for the occupancy of coated pits (43). In contrast, the cytoplasmic accumulation of BDV nucleocapsid components appeared to prevent subsequent infection through a blockage of the polymerase activity of incoming viruses (24). Superinfection exclusion by BVDV was the result of dual mechanisms that were mediated by the structural protein E2, which blocks the entry of a homologous second virus, and by a blockage at the level of replication dependent on the level of primary viral RNA replication but not influenced by the expression of viral structural proteins, as observed for BDV (31). HIV employs its early gene product Nef to efficiently interfere with superinfection at the virus entry step by downregulating cell surface receptors (36). Finally, vaccinia virus expresses in newly infected cells two surface proteins that mark cells as infected and induce the repulsion of superinfecting viruses (18).In the present study, we described a reverse-genetics system for VHSV allowing the generation of a wild-type-like recombinant VHSV and a recombinant virus expressing a red fluorescent protein (Tomato). The system is based on the French strain 23/75 of VHSV, which is a hypervirulent and devastating strain for farmed rainbow trout belonging to genotype I (serotype III) and was isolated in France in 1975 from a brown trout (16, 23). Thus, this system provides a suitable starting point for identifying potential virulence determinants, as demonstrated by the deletion of the NV gene, and for developing attenuated derivatives as candidate vaccines. Using the available reverse-genetics system elaborated with IHNV, a recombinant IHNV expressing a green fluorescent protein (GFP) also was produced (8), and it was of interest to study whether a superinfection exclusion phenomenon could be observed between both VHSV and IHNV, whose cohabitation has been recorded often. We showed that up to 74% of a cell monolayer could be simultaneously infected by the viruses, demonstrating a limited viral interference between salmonid novirhabdoviruses and that, based on previous data, chimeric or pseudotyped viruses could be generated (6).     

Nessun Dorma, a novel centralspindlin partner, is required for cytokinesis in Drosophila spermatocytes

Cytokinesis, the final step of cell division, usually ends with the abscission of the two daughter cells. In some tissues, however, daughter cells never completely separate and remain interconnected by intercellular bridges or ring canals. In this paper, we report the identification and analysis of a novel ring canal component, Nessun Dorma (Nesd), isolated as an evolutionarily conserved partner of the centralspindlin complex, a key regulator of cytokinesis. Nesd contains a pectin lyase-like domain found in proteins that bind to polysaccharides, and we present evidence that it has high affinity for β-galactosides in vitro. Moreover, nesd is an essential gene in Drosophila melanogaster, in which it is required for completion of cytokinesis during male meiosis and possibly in female germline cells. Our findings indicate that Nesd is a novel carbohydrate-binding protein that functions together with centralspindlin in late cytokinesis, thus highlighting the importance of glycosylation in this process.     

Nitric oxide and downstream second messenger cGMP and cAMP enhance adipogenesis in primary human preadipocytes

Background aimsObesity is correlated with chronic low-grade inflammation. Thus the induction of inflammation could be used to stimulate adipose tissue formation in tissue-engineering approaches. As nitric oxide (NO) is a key regulator of inflammation, we investigated the effect of NO and its downstream signaling molecule guanosine 3′,5′-cyclic monophosphate (cGMP) as well as adenosine 3′,5′-cyclic monophosphate (cAMP) on preadipocytes in vitro.MethodsPreadipocytes were isolated from human subcutaneous adipose tissue, cultured until confluence, and differentiated. The NO donor diethylenetriamine (DETA)/NO (30–150 μm) was added during proliferation and differentiation. Additionally, cGMP/cAMP analogs 8-bromoguanosine 3′,5′-cyclic monophosphate (8-Br-cGMP), 8-(4-chlorophenylthio)-guanosine 3′,5′-cyclic monophosphate (8-pCPT-cGMP) and 8-bromoadenosine 3′,5′-cyclic monophosphate (8-Br-cAMP), and the adenylyl cyclase activator forskolin, specific guanylyl cyclase inhibitor 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ) and adenylyl cyclase inhibitor 2′-5′-dideoxyadenosine (ddA), were applied. Proliferation and differentiation were evaluated.ResultsDETA/NO in combination with the standard differentiation procedure significantly enhanced maturation of precursor cells to adipocytes. Proliferation, in contrast, was inhibited in the presence of NO. The application of cGMP and cAMP, respectively, increased pre-adipocyte differentiation to an even higher extent than NO. Inhibitors of the underlying pathways caused a significant decrease in adipogenic conversion.ConclusionsOur results support the application of NO donors during transplantation of preadipocytes in a 3-dimensional setting to accelerate and optimize differentiation. The results suggest that, instead of the rather instable and reactive molecule NO, the application of cGMP and cAMP would be even more effective because these substances have a stronger adipogenic effect on preadipocytes and a longer half-life than NO. Also, by applying inhibitors of the underlying pathways, the induced inflammatory condition could be regulated to the desired level.     

Hepcidin induction limits mobilisation of splenic iron in a mouse model of secondary iron overload

Venesection has been proposed as a treatment for hepatic iron overload in a number of chronic liver disorders that are not primarily linked to mutations in iron metabolism genes. Our aim was to analyse the impact of venesection on iron mobilisation in a mouse model of secondary iron overload. C57Bl/6 mice were given oral iron supplementation with or without phlebotomy between day 0 (D0) and D22, and the results were compared to controls without iron overload. We studied serum and tissue iron parameters, mRNA levels of hepcidin1, ferroportin, and transferrin receptor 1, and protein levels of ferroportin in the liver and spleen. On D0, animals with iron overload displayed elevations in iron parameters and hepatic hepcidin1 mRNA. By D22, in the absence of phlebotomies, splenic iron had increased, but transferrin saturation had decreased. This was associated with high hepatic hepcidin1 mRNA, suggesting that iron bioavailability decreased due to splenic iron sequestration through ferroportin protein downregulation. After 22 days with phlebotomy treatments, control mice displayed splenic iron mobilisation that compensated for the iron lost due to phlebotomy. In contrast, phlebotomy treatments in mice with iron overload caused anaemia due to inadequate iron mobilisation. In conclusion, our model of secondary iron overload led to decreased plasma iron associated with an increase in hepcidin expression and subsequent restriction of iron export from the spleen. Our data support the importance of managing hepcidin levels before starting venesection therapy in patients with secondary iron overload that are eligible for phlebotomy.     

Synthesis and biological evaluation of novel coumarin-based inhibitors of Cdc25 phosphatases

The cell division cycle 25 (Cdc25) family of proteins are dual specificity phosphatases that activate cyclin-dependent kinase (CDK) complexes, which in turn regulate progression through the cell division cycle. Overexpression of Cdc25 proteins has been reported in a wide variety of cancers; their inhibition may thus represent a novel approach for the development of anticancer therapeutics. Herein we report new coumarin-based scaffolds endowed with a selective inhibition against Cdc25A and Cdc25C, being 6a and 6d the most efficient inhibitors and worthy of further investigation as anticancer agents.