Molecular regulation of CC-chemokine receptor 3 expression in human T helper 2 cells

In developing T helper 1 (Th1) and Th2 cells the acquisition of effector function is intimately connected with the acquisition of new migratory capacities, as exemplified by differential expression of chemokine receptors. This study investigates the molecular mechanisms responsible for Th2-restricted expression of the CC-chemokine receptor 3 (CCR3). The minimal promoter in T cells was identified in the -149 base pair (bp) upstream sequence that contains a positive regulatory element. A strong negative element was also localized in the flanking intronic sequence. The study further investigates the role of chromatin remodeling in the regulation of this Th2-specific gene. Drugs that affect the chromatin structure facilitate CCR3 expression in T cells. Furthermore, in differentiating Th2 cells, selected regions are associated with acetylated-H3 histones and become more accessible to DNase I. These results suggest that in Th2 cells both cytokine production and migratory capacity are regulated through a similar mechanism involving chromatin remodeling.     

Demethylation of a specific hypersensitive site in the Th2 locus control region

A growing body of literature has examined and implicated DNA methylation as a critical epigenetic modification in T helper (Th) cell differentiation. The absence of DNA methyltransferases or methyl-binding proteins derepresses many cytokine loci, allowing their ectopic expression, while methylation of specific CpG residues is sufficient to prevent expression. Here, we characterize demethylation events of the Th2 cytokine locus control region (LCR). rad50 hypersensitive site 7 (RHS7), a hypersensitive site within this LCR, becomes demethylated in a STAT6-dependent manner and only in cells stimulated under type 2 conditions. Robust demethylation appears to require signaling contributions from both IL-4 receptor, via STAT6, and CD28, but it cannot be effected by GATA3. Finally, RHS7 is demethylated independently of cell division, consistent with an "active," rather than passive, mechanism. Taken together, these findings firmly connect RHS7 demethylation and Th2 LCR activation in the type 2 differentiation program.     

Disruption of T helper 2-immune responses in Epstein-Barr virus-induced gene 3-deficient mice

Epstein-Barr virus-induced gene 3 (EBI3) is a widely expressed IL-12p40-related protein that associates as a heterodimer with either IL-12p35 or an IL-12p35 homologue, p28, to create a new cytokine (IL-27). To define the function of EBI3 in vivo, we generated knockout mice in which the ebi3 gene was targeted by homologous recombination. EBI3-/- mice exhibited normal numbers of both naive and mature CD4+ and CD8+ T cells and B cells, but markedly decreased numbers of invariant natural killer T cells (iNKT) as defined by staining with an alpha-galactosylceramide (alphaGalCer)-loaded CD1d-tetramer. iNKT cells from EBI3-/- mice exhibited decreased IL-4 and, to a lesser extent, IFN-gamma production after alphaGalCer stimulation in vitro. A sustained decrease in IL-4 production was also observed in EBI3-/- mice after alphaGalCer stimulation in vivo in contrast to IFN-gamma production, which was only transiently decreased under such stimulation. Notably, EBI3-/- mice were resistant to the induction of immunopathology associated with oxazolone-induced colitis, a colitis model mediated primarily by T helper (Th) 2-type cytokine production by iNKT cells. In contrast, trinitrobenzene sulfonic acid-induced colitis, a predominantly Th1-mediated colitis model, was unaffected. Thus, EBI3 plays a critical regulatory role in the induction of Th2-type immune responses and the development of Th2-mediated tissue inflammation in vivo, which may be mediated through the control of iNKT cell function.     

Inducible costimulator is required for type 2 antibody isotype switching but not T helper cell type 2 responses in chronic nematode infection

Inducible costimulator (ICOS) has been suggested to perform an important role in T helper cell type 2 (Th2) responses, germinal center formation, and isotype switching. The role of ICOS in chronic Th2 responses was studied in a nematode model with the filarial parasite, Brugia malayi. Contrary to expectations, we did not observe a significant defect in IL-4-producing Th2 cells in ICOS-/- mice or in eosinophil recruitment. We also found that ICOS was not required for the differentiation of alternatively activated macrophages (AAMPhi) that express Ym1 and Fizz1. Although the production of IgE was slightly reduced in ICOS-/- mice, this was not as significant as in CD28-/- mice. In contrast to live infection, the primary response of ICOS-/- mice immunized with soluble B. malayi antigen and complete Freund's adjuvant resulted in significantly fewer IL-4-producing cells in the lymph nodes. As previously reported, we observed a defect in antibody isotype switching toward the IgG1 isotype in ICOS-/- mice during live infection. Interestingly, there was a significant enhancement of parasite-specific IgG3 isotype antibodies. CD28-/- and MHC class II-/- mice also had enhanced parasite-specific IgG3 isotype antibodies. Our results suggest that ICOS is not required to maintain a chronic cellular Th2 response. The primary role of ICOS in a chronic helminth infection could be to drive antibodies toward type 2 isotypes. T-independent antibody response to the parasite could be enhanced in the absence of costimulation and T cell help.     

Effects of human locus control region elements HS2 and HS3 on human beta-globin gene expression in transgenic mouse

The locus control region (LCR) is the most important cis-element in the regulation of beta-globin gene expression. DNaseI-hypersensitive site (HS) 2 and HS3 are two significant components of beta-LCR. To examine the effect of HS2, HS3, and HS2-HS3 (combination of HS2 and HS3) on the spatial and temporal expression of the human beta-globin gene, we have produced transgenic mice with constructs, in which the gene encoding enhanced green fluorescent protein (EGFP) is driven by beta-globin promoter and under the control of HS2, HS3, and HS2-HS3, respectively. The results showed that HS2 and HS3 each had the same enhancement activity in regulation of beta-globin gene expression in transgenic mice. When HS2 and HS3 were in combination (HS2-HS3), the two cis-elements showed a marked synergy in regulating beta-globin gene spatial and temporal expression as well as its expression level in transgenic mice although the EGFP expression varied largely among different transgenic mouse litters. The results also showed that HS2 was able to confer beta-globin gene expression in embryonic yolk sac, fetal liver, and adult bone marrow, which was not developmentally stage-specific, while HS3 could confer the same beta-globin gene expression in the adult. Thus, HS3 was different from HS2, the former being more important for specific expression of beta-globin gene in the developmental stages and the switch of gamma-->beta-globin genes. Our results indicate that the mechanism of gamma-->beta switch could be best explained by the "divided model."     

Early T cell differentiated chronic myeloid leukemia blast crisis with rearrangement of the breakpoint cluster region but not of the T cell receptor beta chain genes

Early T cell differentiation is described in a case of Philadelphia chromosome-positive chronic myeloid leukemia (CML) in blast crisis, supporting multi-lineage differentiation potential of CML precursor cells. In the absence of myeloid markers, strong positivity for terminal deoxynucleotidyl transferase (TdT) and reactivity with T cell antibody 3A1, but lack of more mature T cell antigens, provided evidence for immature T cell differentiation. Molecular analysis of the breakpoint cluster region (bcr) in chromosome 22 revealed a rearrangement and thus confirmed the CML origin of the early T cell blasts. T cell receptor beta chain sequences were found in germline configuration and therefore suggest a very immature stage of T cell differentiation in the CML blasts.     

A 7-kDa region of the bacteriophage T7 gene 4 protein is required for primase but not for helicase activity.

Bacteriophage T7 gene 4 protein, purified from phage-infected cells, consists of a mixture of 56- and 63-kDa species that provides helicase and primase activities required for T7 DNA replication. The 56-kDa species has been purified independently of the colinear 63-kDa species. Like a mixture of the two proteins, the 56-kDa protein binds single-stranded DNA in the presence of dTTP, catalyzes DNA-dependent hydrolysis of dTTP, and has helicase activity. In contrast to the mixture, the 56-kDa protein cannot catalyze template-dependent RNA primer synthesis. In the absence of a DNA template, both the 56-kDa protein and the mixture of the two species synthesize low levels of diribonucleotide. A putative "zinc finger" present near the amino terminus of the 63-kDa protein but absent from the 56-kDa protein may play a major role in the recognition of primase sites in the template.     

Rhabdomyosarcoma arising in transgenic mice harboring the beta-globin locus control region fused with simian virus 40 large T antigen gene.

The beta-globin locus control region (LCR) confers a high level of erythroid-specific and copy-number-dependent expression to human globin genes in transgenic mice. Simian virus 40 T (tumor) antigen (Tag) with its own natural enhancer causes choroid plexus tumors in mice. We investigated the effect of the LCR on Tag gene expression, reasoning that mice harboring a LCR-Tag fusion gene might develop hematopoietic malignancies. To test this hypothesis we introduced an enhancerless Tag gene downstream of a LCR cassette into the germ lines of mice. The phenotypes of the transgenic mice depended on the copy number of the transgene. While mice with 1-2 copies matured normally, those with 3-7 copies developed rhabdomyosarcomas in different anatomic sites at high frequency and showed hyperplasia of the pancreatic islet cells which progressed to pancreatic islet tumors. In addition, the mice bearing 7 copies of the transgene had hypoglycemia and were stunted in growth. Mice with more than 10 copies were markedly stunted in growth and died within 2-4 weeks. Tag expression was detected at high levels in the mouse tumors but not in any other tissues, including the hematopoietic cells.     

Identification of a locus control region for quadruplicated green-sensitive opsin genes in zebrafish

Duplication of opsin genes has a crucial role in the evolution of visual system. Zebrafish have four green-sensitive (RH2) opsin genes (RH2-1, RH2-2, RH2-3, and RH2-4) arrayed in tandem. They are expressed in the short member of the double cones (SDC) but differ in expression areas in the retina and absorption spectra of their encoding photopigments. The shortest and the second shortest wavelength subtypes, RH2-1 and RH2-2, are expressed in the central-to-dorsal retina. The longer wavelength subtype, RH2-3, is expressed circumscribing the RH2-1/RH2-2 area, and the longest subtype, RH2-4, is expressed further circumscribing the RH2-3 area and mainly occupying the ventral retina. The present report shows that a 0.5-kb region located 15 kb upstream of the RH2 gene array is an essential regulator for their expression. When the 0.5-kb region was deleted from a P1-artificial chromosome (PAC) clone encompassing the four RH2 genes and when one of these genes was replaced with a reporter GFP gene, the GFP expression in SDCs was abolished in the zebrafish to which a series of the modified PAC clones were introduced. Transgenic studies also showed that the 0.5-kb region conferred the SDC-specific expression for promoters of a non-SDC (UV opsin) and a nonretinal (keratin 8) gene. Changing the location of the 0.5-kb region in the PAC clone conferred the highest expression for its proximal gene. The 0.5-kb region was thus designated as RH2-LCR analogous to the locus control region of the L-M opsin genes of primates.     

Resistin gene 3'-untranslated region +62G-->A polymorphism is associated with hypertension but not diabetes mellitus type 2 in a German population

OBJECTIVES: Resistin, a peptide hormone produced by adipocytes, has been associated with diabetes mellitus type 2 (DM-2) in some rodent models. In humans the exact function of resistin remains unknown. Some, but not all studies have found associations between polymorphisms in the resistin gene with DM-2. Recently a 3'-untranslated region +62G-->A polymorphism of the resistin gene has been associated with decreased risk for DM-2 and for hypertension in diabetics in a Chinese population. Purpose of the present study was to examine for the first time in a German Caucasian population the possible association between this polymorphism and DM-2, hypertension, lipoprotein levels, resistin levels as well as atherosclerosis. DESIGN, SETTING AND SUBJECTS: A total of 818 subjects participated in the study. The presence of the +62G-->A polymorphism of the resistin gene was investigated using polymerase chain reaction-restriction fragment length polymorphism in 384 subjects with DM-2 [224 men, 160 women, age 63.4 +/- 10.6 years, body mass index (BMI) 28.7 +/- 5.1 kg m(-2)] and in 434 nondiabetic age- and sex-matched control subjects (248 men, 186 women, age 64.4 +/- 6.5 years, BMI 26.5 +/- 3.7 kg m(-2)). RESULTS: Thirty-four subjects were found to be carrying the +62G-->A polymorphism in the control and 24 in the diabetic group (allelic frequencies 4% and 3.2% respectively). Subjects with DM-2 were not found to have a different frequency of the genotypes (93.75% and 6.258%, for GG:GA/AA respectively) than the control subjects (92.2% and 7.8% for GG:GA/AA respectively) (OR 0.75, 95% CI 0.44-1.3, P = 0.31). In the total cohort, carriers of the A allele had a higher prevalence of hypertension (OR 1.82, 95% CI 1.03-3.21, P = 0.039). When analysed separately, the control group showed a strong association between the presence of the A allele and hypertension (OR 2.92, 95% CI 1.38-6.15, P = 0.005), whilst no such association could be established in the diabetic group (OR 1.05, 95% CI 0.43-2.54, P = 0.92). Multiple regression analysis confirmed that the presence of the A variant is associated with hypertension in control but not in diabetic subjects, independent of age and BMI. The polymorphism had no significant influence on the presence of atherosclerotic disease, BMI, and on triglyceride, HDL and LDL cholesterol levels, both, in the control and the diabetic groups. There was no difference in the serum resistin levels between the 62G-->A variant carriers and noncarriers. CONCLUSIONS: In conclusion, the present data suggest that in a German Caucasian population the +62G-->A polymorphism of the resistin gene is associated with hypertension but not with DM-2.     

Isoproterenol is a positive regulator of the suppressor of cytokine signaling-3 gene expression in 3T3-L1 adipocytes

SOCS (suppressor of cytokine signaling)-3 has recently been shown to be an insulin- and tumor necrosis factor (TNF)-alpha-induced negative regulator of insulin signaling. To further clarify a potential involvement of SOCS-3 in the development of insulin resistance, we measured differentiation-dependent SOCS-3 mRNA expression in 3T3-L1 adipocytes and studied its regulation by various hormones known to impair insulin signaling using quantitative real-time RT-PCR. There was a differentiation-dependent downregulation of SOCS-3 mRNA by 50% over the 9 day adipocyte differentiation course. Interestingly, besides insulin and TNF-alpha, chronic treatment of differentiated 3T3-L1 cells with 10 microM isoproterenol for 16 h stimulated SOCS-3 gene expression by about 3.5-fold. Furthermore, isoproterenol stimulated SOCS-3 mRNA expression in a dose-dependent manner with significant activation detectable at concentrations as low as 10 nM isoproterenol. Moreover, a strong 27- and 47-fold activation of SOCS-3 mRNA expression could be seen after 1 h of isoproterenol and GH treatment respectively. The stimulatory effect of isoproterenol could be almost completely reversed by pretreatment of 3T3-L1 cells with the beta-adrenergic antagonist propranolol. Finally, isoproterenol's action could be mimicked by stimulation of G(S)-proteins with cholera toxin and of adenylyl cyclase with forskolin and dibutyryl cAMP. Taken together, our results demonstrate a differentiation-dependent downregulation of SOCS-3 in adipocytes and suggest that SOCS-3 gene expression is stimulated by beta-adrenergic agents via activation of a G(S)-protein-adenylyl cyclase-dependent pathway. As SOCS-3 is a novel inhibitor of insulin signaling, the data support a possible role of this protein as a selectively regulated mediator of catecholamine-induced insulin resistance.