Expression of dominant-negative src-homology domain 2-containing protein tyrosine phosphatase-1 results in increased Syk tyrosine kinase activity and B cell activation.
(49/20496)
The Src-homology domain 2 (SH2)-containing cytoplasmic tyrosine phosphatase, SHP-1 (SH2-containing protein tyrosine phosphatase-1), interacts with several B cell surface and intracellular signal transduction molecules through its SH2 domains. Mice with the motheaten and viable motheaten mutations are deficient in SHP-1 and lack most mature B cells. To define the role of SHP-1 in mature B cells, we expressed phosphatase-inactive SHP-1 (C453S) in a mature B cell lymphoma line. SHP-1 (C453S) retains the ability to bind to both substrates and appropriate tyrosine-phosphorylated proteins and therefore can compete with the endogenous wild-type enzyme. We found that B cells expressing SHP-1 (C453S) demonstrated enhanced and prolonged tyrosine phosphorylation of proteins with molecular masses of 110, 70, and 55-60 kDa after stimulation with anti-mouse IgG. The tyrosine kinase Syk was hyperphosphorylated and hyperactive in B cells expressing SHP-1 (C453S). SHP-1 and Syk were coimmunoprecipitated from wild-type K46 cells, K46 SHP-1 (C453S) cells, and splenic B cells, and SHP-1 dephosphorylated Syk. Cells expressing SHP-1 (C453S) showed increased Ca2+ mobilization, extracellular signal-regulated kinase activation, and homotypic adhesion after B cell Ag receptor engagement. Thus, SHP-1 regulates multiple early and late events in B lymphocyte activation. (+info)
Emergence of T cell progenitors without B cell or myeloid differentiation potential at the earliest stage of hematopoiesis in the murine fetal liver.
(50/20496)
It has been unclear whether the progenitors colonizing the thymus are multipotent or T cell lineage restricted. We investigated the developmental potential of hematopoietic progenitors in various populations of liver and blood cells from day 12 fetuses using the recently established in vitro experimental system effective in determining the capability of individual progenitors to generate T, B, and myeloid cells. Multipotent progenitors (p-Multi) were exclusively found in the Sca-1 high-positive (Sca-1high) subpopulation of lineage marker (Lin)-c-kit+CD45+ fetal liver cells. Restriction of developmental capacity begins at the Sca-1high stage, and a large majority of progenitors in the Sca-1low or Sca-1- population are restricted to generate T, B, or myeloid cells. Such a lineage commitment or restriction taking place in the fetal liver is independent of the thymus, because no difference in the proportion of different types of progenitors were seen between nu/nu and nu/+ fetuses. T cell lineage-restricted progenitors (p-T) were abundant in the blood of day 12 fetuses, whereas p-Multi were undetectable. It was further shown that the p-Multi generated a large number of B and myeloid cells in the thymic lobe. These results strongly suggest that it is p-T but not p-Multi that migrate into the thymus. (+info)
A tailless fas-FADD death-effector domain chimera is sufficient to execute Fas function in T cells but not B cells of MRL-lpr/lpr mice.
(51/20496)
The Fas receptor delivers signals crucial for lymphocyte apoptosis through its cytoplasmic death domain. Several Fas cytoplasmic-associated proteins have been reported and studied in cell lines. So far, only Fas-associated death domain protein (FADD), another death domain-containing molecule has been shown to be essential for Fas signals in vivo. FADD is thought to function by recruiting caspase-8 through its death-effector domain. To test whether FADD is sufficient to deliver Fas signals, we generated transgenic mice expressing a chimera comprised of the Fas extracellular domain and FADD death-effector domain. Expression of this protein in lymphocytes of Fas-deficient MRL-lpr/lpr mice completely diminishes their T cell but not their B cell abnormalities. These results suggest that FADD alone is sufficient for initiation of Fas signaling in primary T cells, but other pathways may operate in B cells. (+info)
Requirement for nuclear factor-kappaB activation by a distinct subset of CD40-mediated effector functions in B lymphocytes.
(52/20496)
CD40 stimulation, which is crucial for generating an effective T-dependent humoral response, leads to the activation of transcription factors NF-AT (nuclear factor of activated T cells), AP-1 (activator protein-1), and NF-kappaB (nuclear factor-kappaB). However, which CD40-mediated B cell functions actually require activation of specific transcription factors is unknown. We examined the causal relationship between NF-kappaB activation and CD40 effector functions by evaluating CD40 functions in the presence of an inducible mutant inhibitory kappaBalpha (IkappaBalpha) superrepressor. IkappaBalphaAA inhibited nuclear translocation of multiple NF-kappaB dimers without the complicating effect of depriving cells of NF-kappaB during development. This approach complements studies that use mice genetically deficient in single or multiple NF-kappaB subunits. Interestingly, only a subset of CD40 effector functions was found to require NF-kappaB activation. Both CD40-induced Ab secretion and B7-1 up-regulation were completely abrogated by expression of IkappaBalphaAA. Surprisingly, up-regulation of Fas, CD23, and ICAM-1 was partially independent, and up-regulation of LFA-1 was completely independent, of CD40-induced NF-kappaB activation. For the first time, it is clear that distinct transcription factors are required for the dynamic regulation of CD40 functions. (+info)
IL-5 induces IgG1 isotype switch recombination in mouse CD38-activated sIgD-positive B lymphocytes.
(53/20496)
Mouse B cells express CD38, whose ligation by anti-CD38 Ab induces their proliferation and protection from apoptosis. We previously showed that stimulation of mouse splenic B cells with IL-5 together with CS/2, an anti-mouse CD38 mAb, induces production of IgG1 and IgM. Here we examined the role of IL-5 and CS/2 in the expression of germline gamma1 transcripts and the generation of reciprocal products forming DNA circles as byproducts of mu-gamma1 switch recombination. By itself, CS/2 induced significant expression of germline gamma1 transcripts in splenic naive B cells, whereas IL-5 neither induced nor enhanced germline gamma1 expression. Increased cellular content of reciprocal product, which is characteristic of mu-gamma1 recombination, was not observed after culturing B cells with CS/2, but increased reciprocal product, along with high levels of lgG1 secretion, was found when B cells were cultured with CS/2 plus IL-5. Although IL-4 did not, by itself, induce mu-gamma1 recombination in B cells stimulated with CS/2, in conjunction with CS/2 plus IL-5, IL-4 dramatically enhanced sterile gamma1 transcription and IgG1 production. These results demonstrate that CD38 ligation induces only germline gamma1 transcription and that IL-5 promotes both mu-gamma1 switch recombination and lgG1 secretion in an IL-4-independent manner. (+info)
gammadelta T cells contribute to control of chronic parasitemia in Plasmodium chabaudi infections in mice.
(54/20496)
During a primary infection of mice with Plasmodium chabaudi, gammadelta T cells are stimulated and their expansion coincides with recovery from the acute phase of infection in normal mice or with chronic infections in B cell-deficient mice (mu-MT). To determine whether the large gammadelta T cell pool observed in female B cell-deficient mice is responsible for controlling the chronic infection, studies were done using double-knockout mice deficient in both B and gammadelta cells (mu-MT x delta-/-TCR) and in gammadelta T cell-depleted mu-MT mice. In both types of gammadelta T cell-deficient mice, the early parasitemia following the peak of infection was exacerbated, and the chronic parasitemia was maintained at significantly higher levels in the absence of gammadelta T cells. The majority of gammadelta T cells in C57BL/6 and mu-MT mice responding to infection belonged predominantly to a single family of gammadelta T cells with TCR composed of Vgamma2Vdelta4 chains and which produced IFN-gamma rather than IL-4. (+info)
A-type and B-type Epstein-Barr virus differ in their ability to spontaneously enter the lytic cycle.
(55/20496)
In this study replication of A-type and B-type Epstein-Barr virus (EBV) strains has been assessed. A-type and B-type type lymphoblastoid cell lines (LCLs) were established by infecting B lymphocytes, isolated from five EBV-seropositive donors, with different A-type and B-type virus isolates. The presence of viral capsid antigens (VCA) in these LCLs was determined by immunofluoresence assay and by immunoblotting. All of the B-type EBV strains were capable of spontaneously generating virus regardless of the origin of the donor cells. In contrast the A-type strains, other than strain IARC-BL36, did not readily produce VCA in any of the different donor lymphocytes used. This study demonstrates another biological difference between the two virus types: their ability to spontaneously enter the lytic cycle. (+info)
Relative levels of EBNA1 gene transcripts from the C/W, F and Q promoters in Epstein-Barr virus-transformed lymphoid cells in latent and lytic stages of infection.
(56/20496)
Four promoters, Cp, Wp, Fp and Qp, are known to participate in transcription of the Epstein-Barr virus (EBV) nuclear antigen 1 (EBNA1) gene in EBV-infected cell lines. The promoters are used differentially during the different phases of infection and establishment of the stages of latency. This has raised questions about the regulation of the promoters and the molecular mechanisms underlying the switches between them. To obtain a measure of the activity of the different EBNA1 transcription units in EBV-transformed cell lines of different phenotypes, RNA probes were constructed that allowed the detection and relative quantification, by RNase protection analysis, of EBNA1 transcripts initiated at Fp and Qp and, in an indirect manner, Cp/Wp. RNase protection and PCR assays were performed with cytoplasmic RNA from B-lymphoid cell lines in latency stages I, II-III and III and after induction of the virus lytic cycle. The experiments demonstrated that, in addition to previously identified EBNA1 transcripts, cell lines of all latency types also contained different mRNAs that carried sequences from the EBNA1-encoding K exon. Induction of the virus lytic cycle resulted in low levels of an FpQ/U/K-spliced transcript. However, there was a large increase of FpQ- and FpQ/U-spliced transcripts with unknown 3' sequences. Furthermore, a new transcript, initiated at an unidentified site 5' of the BamHI f/K cleavage site and continuing through BamHI K into the EBNA1-encoding K exon without interruption, was produced in substantial amounts in the lytic cycle. (+info)