T cell receptor (TCR)-driven activation of helper T cells induces a rapid polarization of their cytoskeleton towards bound antigen presenting cells (APCs). We have identified the Fyn- and SLP-76–associated protein Fyb/SLAP as a new ligand for Ena/ vasodilator-stimulated phosphoprotein (VASP) homology 1 (EVH1) domains. Upon TCR engagement, Fyb/SLAP localizes at the interface between T cells and anti-CD3–coated beads, where Evl, a member of the Ena/VASP family, Wiskott-Aldrich syndrome protein (WASP) and the Arp2/3 complex are also found. In addition, Fyb/SLAP is restricted to lamellipodia of spreading platelets. In activated T cells, Fyb/SLAP associates with Ena/VASP family proteins and is present within biochemical complexes containing WASP, Nck, and SLP-76. Inhibition of binding between Fyb/SLAP and Ena/VASP proteins or WASP and the Arp2/3 complex impairs TCR-dependent actin rearrangement, suggesting that these interactions play a key role in linking T cell signaling to remodeling of the actin cytoskeleton.
Mutations from moderate (class I) to high (class III) ampicillin resistance in a male and a female strain of Escherichia coli K-12 have been found to be accompanied by surface alterations, first demonstrated as hindrance in the formation of mating pairs. These changes have now been studied with the ribonucleic acid phage MS2, and especially with the "female-specific" phage OW. Several class III mutations in male and female strains were found to make the cells susceptible to phage 4W and to reduce their abilities to form mating pairs. Spontaneous phage OW-resistant mutants isolated from class III strains were found also to have acquired changes in ampicillin resistance and ability to form mating pairs. One mutant had reverted to parental class I type in all three properties. Lipopolysaccharides (LPS) prepared from OW-sensitive class III strains inactivated the phage in vitro, whereas LPS from phage-resistant strains had no effect. Carbohydrate analyses of LPS preparations showed that two class III mutants, compared to their parental strains, had lost significant parts of the rhamnose, galactose, and glucose from the LPS. One of the phage OW-resistant mutants showed a partial restoration of its carbohydrate composition. Other OW-resistant mutants showed, instead, further losses of carbohydrates in their LPS. It is suggested that genes exist which simultaneously mediate a female-specific mating site, ampicillin resistance, and the receptors for phage OW.III mutations in either the Hfr or the female cells (3). We have now isolated several new mutants and studied this surface effect by using the sex-specific phages MS2 and OW. Efficiency of plating (EOP), killing of host cells, and adsorp-on July 31, 2020 by guest
As recommendations for specific pathogen-free housing change, mouse facilities need to re-derive their colonies repeatedly in order to eliminate specified bacteria or viruses. This paper describes the establishment of a new mouse facility using as starting point a small colony of CD-1 mice colonized with the Charles River altered Schaedler flora (CRASF w ) housed in individually ventilated cages (IVCs). The import of new strains was performed exclusively via embryo transfer using CD-1 mice as recipients. The integrity of the CRASF w in caecum samples of the original CD-1 colony and of three inbred mouse lines imported into the colony was proven by a quantitative realtime polymerase chain reaction approach. Furthermore, we searched for bacterial contaminants in the gut flora using non-specific 16S rRNA primers. The bacterial sequences found were closely related to but not exclusively sequences of altered Schaedler flora (ASF) members, suggesting that the ASF is heterogeneous rather than restricted to the eight defined bacteria. Moreover, no pathogens were found, neither using the non-specific 16S rRNA primers nor in routine quarterly health monitoring. As one effect of this defined gut flora, interleukin-10 knockout mice are devoid of colitis in our facility. In conclusion, our approach building up a mouse facility using foster mothers and embryo transfer as well as a strict barrier system and IVCs is suitable to maintain a colony free from contaminating bacteria over the long term. CRASF w remained stable for seven mouse generations and was efficiently transferred to the imported mouse strains.
Chemical analyses of the carbohydrate composition of lipopolysaccharides (LPS) from a number of LPS mutants were used to propose a schematic composition for the LPS from Escherichia coli K-12. The formula contains four regions: the first consists of lipid A, ketodeoxyoctonoic acid, and a phosphorous component; the second contains only heptose; the third only glucose; and the fourth additional glucose, galactose, and rhamnose. LPS from E. coli B may have a similar composition but lacks the galactose and rhamnose units. A set of LPS-specific bacteriophages were used for comparing three mutants of Salmonella with a number of LPS mutants of E. coli K-12. The results confirm that there are basic similarities in the first and second regions of the LPS structure; they also support the four region divisions of the LPS formula. Paper chromatography was used for characterization of 32P-labeled LPS from different strains of E. coli and Salmonella. The R, values for LPS varied from 0.27 to 0.75 depending on the amounts of carbohydrates in the molecule. LPS from all strains studied was homogenous except for strain D31 which produced two types of LPS. Mild acid hydrolysis of labeled LPS liberated lipid A and two other components with phosphate, one of which was assigned to the first region. It is suggested that paper chromatography can be used in biosynthetic studies concerning regions 2 to 4. The lipopolysaccharides (LPS) from gramnegative bacteria are known to be complex molecules consisting of three main parts: lipid A, the core polysaccharide, and the side chain polysaccharides; the latter is often referred to as 0 antigen (17). Most of the vast literature on LPS has been motivated by the endotoxic and immunogenic properties of the molecule (17). This is especially true for Salmonella, where the isolation of mutants missing parts of the 0 antigen or the core polysaccharide has facilitated the structural analysis of the LPS molecule (24, 36). Recently, the use of antibiotics and phage resistances provided means to obtain similar sets of mutants in Escherichia coli (8, 21, 38, 39). Wild-type and class I ampicillin-resistant strains of E. coli K-12 (which lack 0 antigens) are normally resistant to the Wollman phage (4W), whereas a few class II and all class III ampicillin-resistant mutants are sensitive (3, 5, 8, 21). Starting from the latter class, resistance to 4W was used to select mutants which had lost increasing amounts of the carbohydrates from the core of the LPS molecule (21). We have now isolated a new set of such mutants and
Phagocytosis by macrophages and neutrophils involves the spatial and temporal reorganisation of the actin-based cytoskeleton at sites of particle ingestion. Local polymerisation of actin filaments supports the protrusion of pseudopodia that eventually engulf the particle. Here we have investigated in detail the cytoskeletal events initiated upon engagement of Fc receptors in macrophages. Ena/vasodilator-stimulated phosphoprotein (VASP) proteins were recruited to phagosomes forming around opsonised particles in both primary and immortalised macrophages. Not only did the localisation of Ena/VASP proteins coincide, spatially and temporally, with the phagocytosis-induced reorganisation of actin filaments, but their recruitment to the phagocytic cup was required for the remodelling of the actin cytoskeleton, extension of pseudopodia and efficient particle internalisation. We also report that SLP-76, Vav and profilin were recruited to forming phagosomes. Upon induction of phagocytosis, a large molecular complex, consisting in part of Ena/VASP proteins, the Fyn-binding/SLP-76-associated protein (Fyb/SLAP), Src-homology-2 (SH2)-domain-containing leukocyte protein of 76 kDa (SLP-76), Nck, and the Wiskott-Aldrich syndrome protein (WASP), was formed. Our findings suggest that activation of Fcγ receptors triggers two signalling events during phagocytosis: one through Fyb/SLAP that leads to recruitment of VASP and profilin; and another through Nck that promotes the recruitment of WASP. These converge to regulate actin polymerisation, controlling the assembly of actin structures that are essential for the process of phagocytosis.
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