Epigenetic silencing of CD4 in T cells committed to the cytotoxic lineage.

The process of thymocyte development culminates in the maturation of helper (CD4+) and cytotoxic (CD8+) T cells from their common precursors, the CD4+CD8+ double-positive cells. A crucial step during lineage specification is the termination of expression of either the CD4 or the CD8 coreceptor. A silencer element within the first intron of the CD4 gene is sufficient for CD4 transcriptional repression in cells of the cytotoxic lineage, as well as in thymocytes at earlier stages of differentiation. Here we show that the function of the CD4 silencer is required only at distinct stages of development. Its deletion before the initiation of lineage specification resulted in CD4 derepression throughout thymocyte differentiation. By contrast, once cells committed to the cytotoxic CD8+ lineage, the CD4 locus remained silent through subsequent mitoses, even when the silencer element was excised. The epigenetic inheritance of the silenced CD4 locus was not affected by the inhibition of DNA methylation or histone deacetylation, and may thus involve other mechanisms that ensure a stable state of gene expression.

Severe B cell deficiency in mice lacking the tec kinase family members Tec and Btk.

The cytoplasmic protein tyrosine kinase Tec has been proposed to have important functions in hematopoiesis and lymphocyte signal transduction. Here we show that Tec-deficient mice developed normally and had no major phenotypic alterations of the immune system. To reveal potential compensatory roles of other Tec kinases such as Bruton's tyrosine kinase (Btk), Tec/Btk double-deficient mice were generated. These mice exhibited a block at the B220(+)CD43(+) stage of B cell development and displayed a severe reduction of peripheral B cell numbers, particularly immunoglobulin (Ig)M(lo)IgD(hi) B cells. Although Tec/Btk(null) mice were able to form germinal centers, the response to T cell-dependent antigens was impaired. Thus, Tec and Btk together have an important role both during B cell development and in the generation and/or function of the peripheral B cell pool. The ability of Tec to compensate for Btk may also explain phenotypic differences in X-linked immunodeficiency (xid) mice compared with human X-linked agammaglobulinemia (XLA) patients.

An enhancer that directs lineage-specific expression of CD8 in positively selected thymocytes and mature T cells.

Positive selection of CD4+CD8+ T cells to the CD4+CD8- helper and CD4- CD8+ cytotoxic lineages is a multistep process that involves complex regulation of coreceptor gene expression. By analyzing expression of a reporter gene in transgenic mice, we have identified a DNA segment, located between the murine CD8beta and CD8alpha genes, that has enhancer activity restricted to CD8 lineage cells. Remarkably, this enhancer functions in thymocytes undergoing positive selection to the CD4-CD8+ phenotype but not in immature double-positive thymocytes. The enhancer also functions in gut intraepithelial lymphocytes that express CD8alpha but not CD8beta, suggesting that it is specific for CD8alpha expression. The tight correlation between activation of this enhancer and the final step in positive selection has important implications for understanding the mechanism of lineage commitment in thymocytes.

Helper T cells without CD4: control of leishmaniasis in CD4-deficient mice.

Expression of either the CD4 or CD8 glycoproteins discriminates two functionally distinct lineages of T lymphocytes. A null mutation in the gene encoding CD4 impairs the development of the helper cell lineage that is normally defined by CD4 expression. Infection of CD4-null mice with Leishmania has revealed a population of functional helper T cells that develops despite the absence of CD4. These CD8- alpha beta T cell receptor+ T cells are major histocompatibility complex class II-restricted and produce interferon-gamma when challenged with parasite antigens. These results indicate that T lymphocyte lineage commitment and peripheral function need not depend on the function of CD4.

Targeted activation of CD8 cells and infection of beta 2-microglobulin-deficient mice fail to confirm a primary protective role for CD8 cells in experimental leishmaniasis.

CD8+ T cells play an important role in the immunologic control of intracellular pathogens, particularly viruses. Leishmania are obligate intracellular parasites of macrophages in the mammalian host, and previous studies using deletion of CD8+ cells by administration of mAb to infected animals have suggested a protective role for these cells. Two complementary approaches were used to define more carefully the role of CD8+ cells in leishmaniasis. In BALB/c mice susceptible to Leishmania major (L. major) infection, targeted activation of CD8+ T cells was attempted by immunization with nonapeptides derived from the conserved major outer surface protein of the organism, gp63, that contained the consensus binding motif for MHC class I H-2Kd molecules. Two of the nonapeptides induced CTL activity in subsequently infected BALB/c mice that could be elicited against P815 cells pulsed either with peptide or lysates of L. major. Purified CD8+ T cells from immunized mice had elevated levels of IFN-gamma mRNA transcripts as compared to unimmunized mice. Despite evidence for activation of CD8+ cells, none of the mice immunized with nine different peptides alone or in combination were protected from progressive disease. In a second series of experiments, beta 2-microglobulin deficient mice that lack CD8+ cells were infected with L. major and the course of infection monitored. These mice cured disease as rapidly as beta 2-m +/- and +/+ littermates, and cure was associated with comparable levels of IFN-gamma mRNA in the draining lymph node population. Neither of these approaches was able to confirm a substantive role for CD8+ T cells in the primary protective response to L. major.

Transfected Leishmania expressing biologically active IFN-gamma.

Infection of susceptible BALB/c mice with Leishmania major leads to progressive infection with the failure to expand and activate Th1 CD4+ T cells that elaborate IFN-gamma, a critically implicated cytokine for control of disease. We used the recently described capacity to express foreign genes in trypanosomatids to introduce into Leishmania the murine IFN-gamma gene on a drug-selectable plasmid under the constitutive control of intergenic tubulin sequences. Several clones of L. major were established and demonstrated to contain IFN-gamma DNA and IFN-gamma RNA that was appropriately trans-spliced with the Leishmania-specific leader sequence, and to secrete IFN-gamma into the media. The secreted IFN-gamma was biologically active as assessed by up-regulation of class II MHC Ag and induction of macrophage nitric oxide synthase activity in a macrophage cell line. Infection of nude mice with IFN-gamma-containing organisms resulted in significantly slower progression of disease as compared to infection with organisms containing the empty plasmid, suggesting that biologically important activation of infected macrophages might be occurring in vivo. Infection of genetically susceptible BALB/c mice, however, did not impede the expansion of Th2 cells and the inexorable progression of disease. Despite the demonstration of increased levels of IFN-gamma transcription in vivo, induction of nitric oxide synthase in macrophages and expression of Ly-6, and IFN-gamma-inducible Ag, on CD4+ lymphocytes could not be shown. In all cases, organisms recovered from tissue amastigotes contained the IFN-gamma plasmid and secreted active IFN-gamma. The data confirm earlier studies that IFN-gamma alone is not sufficient to impede activation and maturation of Th2 cells in susceptible mice, even when targeted directly to the infected cell.

IL-2 is necessary for the progression of leishmaniasis in susceptible murine hosts.

BALB/c mice are highly susceptible to disseminated infection with the intracellular protozoa Leishmania major. Progression of disease requires in vivo expansion of Th2 CD4+ lymphocytes and is reversed by treatment with anti-IL-4 monoclonal antibody. Inasmuch as IL-2 may be necessary for both the production of IL-4 and differentiation of Th2 cells, the possible contribution of IL-2 to progressive infection was examined. Four weekly injections of anti-IL-2 mAb (S4B6) cured more than 80% of BALB/c mice infected with L. major, as determined by diminished footpad swelling and decreased numbers of parasites in infected tissues. Multiple doses of S4B6 were necessary for benefit; a single dose given at the time of infection was ineffective. The anti-IL-2R mAb PC61 demonstrated a similar protective effect when administered twice weekly for 4 wk. Anti-IL-2-mediated cure of cutaneous leishmaniasis was associated with increased IFN-gamma and decreased IL-4 production by regional lymph node cells compared to untreated BALB/c mice with progressive illness. Both CD4+ and CD8+ T lymphocytes contributed to the increased expression of IFN-gamma mRNA in cured mice. These data suggest that levels of IL-2 suboptimal for Th2 expansion in vivo do not inhibit Th1 CD4+ and CD8+ T cell activation and IFN-gamma synthesis. Other cytokines or activation pathways that are either IL-2-independent or synergistic with low levels of IL-2 may account for the appearance of curative T cell responses during treatment with anti-IL-2 antibodies.

TH1 and TH2 cell antigen receptors in experimental leishmaniasis.

The complexity and chronicity of parasitic infections have obscured the identification of biologically relevant antigens. Analysis of the T cell receptor repertoire used by mice infected with Leishmania major revealed the expansion of a restricted population of CD4+ cells. These cells expressed the V alpha 8-J alpha TA72, V beta 4 heterodimer in both progressive infection and protective immunity and across several major histocompatibility haplotypes. Thus, the same immunodominant parasite epitope drives the disparate outcomes of this infectious process, suggesting that candidate vaccine antigens selected by screening of immune individuals may be capable of exacerbating disease in genetically susceptible individuals.

Up regulation of calbindin-D28K mRNA in the rat hippocampus following focal stimulation of the perforant path.

Calbindin-D28K is a constitutive Ca2(+)-binding protein expressed in hippocampal neurons that are resistant to various forms of excitotoxic injury. However, the local factors controlling calbindin-D28K expression within the central nervous system are unknown. We report that neuronal excitation via the perforant path leads to an increased expression of calbindin-D28K mRNA within dentate granule cells. This response is related specifically to stimulation that induces prolonged periods of bursting afterdischarges and precedes cellular injury. The up regulation of calbindin-D28K mRNA occurs during the type of neuronal activation associated with elevated cytosolic Ca2+ and suggests that the maintenance of Ca2+ homeostasis includes a system of feedback control at the level of gene expression.