Analysis of histones in Xenopus laevis. I. A distinct index of enriched variants and modifications exists in each cell type and is remodeled during developmental transitions. Shechter, D; Nicklay, JJ; Chitta, RK; Shabanowitz, J; Hunt, DF; Allis, CD The Journal of biological chemistry
284
1064-74
2009
概要を表示する
Histone proteins contain epigenetic information that is encoded both in the relative abundance of core histones and variants and particularly in the post-translational modification of these proteins. We determined the presence of such variants and covalent modifications in seven tissue types of the anuran Xenopus laevis, including oocyte, egg, sperm, early embryo equivalent (pronuclei incubated in egg extract), S3 neurula cells, A6 kidney cells, and erythrocytes. We first developed a new robust method for isolating the stored, predeposition histones from oocytes and eggs via chromatography on heparin-Sepharose, whereas we isolated chromatinized histones via conventional acid extraction. We identified two previously unknown H1 isoforms (H1fx and H1B.Sp) present on sperm chromatin. We immunoblotted this global collection of histones with many specific post-translational modification antibodies, including antibodies against methylated histone H3 on Lys(4), Lys(9), Lys(27), Lys(79), Arg(2), Arg(17), and Arg(26); methylated histone H4 on Lys(20); methylated H2A and H4 on Arg(3); acetylated H4 on Lys(5), Lys(8), Lys(12), and Lys(16) and H3 on Lys(9) and Lys(14); and phosphorylated H3 on Ser(10) and H2A/H4 on Ser(1). Furthermore, we subjected a subset of these histones to two-dimensional gel analysis and subsequent immunoblotting and mass spectrometry to determine the global remodeling of histone modifications that occurs as development proceeds. Overall, our observations suggest that each metazoan cell type may have a unique histone modification signature correlated with its differentiation status. | | 18957438
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Regulation of JAK2 protein expression by chronic, pulsatile GH administration in vivo: a possible mechanism for ligand enhancement of signal transduction. Yuan Zhou, Xiaohong Wang, Jill Hadley, Seth J Corey, Regina Vasilatos-Younken General and comparative endocrinology
144
128-39
2005
概要を表示する
Growth hormone (GH) is a key factor controlling postnatal growth and development. Despite growth-promoting effects in mammals, GH is not associated with muscle growth in the chicken. Janus kinase 2 (JAK2) has been identified as the first intracellular step in GH receptor (GHR) signaling in many species, however, there is limited knowledge regarding the GH signaling pathway in the chicken. In this study, GH-responsive, JAK2 immunoreactive proteins were first assessed in an avian hepatoma cell line (LMH). Tyrosine phosphorylation of a 120-122 kDa JAK2 immunoreactive protein was GH dose-dependent. In addition to in vitro studies, the timecourse of JAK2 activation in liver and skeletal muscle (Pectoralis superficialis) in response to a single intravenous (i.v.) injection of chicken GH (cGH), and the effect of chronic exposure to GH in a physiologically relevant pattern on JAK2 protein expression and tyrosine phosphorylation in vivo were assessed. At a dose of GH that was previously demonstrated to elicit a maximal metabolic response (6.25 microg/kg BW), maximum tyrosine phosphorylation of JAK2 appeared at 10 min post-GH administration in the pectoralis muscle, but was not detectable in liver. To assess whether chronic enhancement of GH would alter expression of JAK2, we utilized a dynamic model of pulsatile GH infusion that mimicked the early pattern of circulating GH expressed in younger, rapidly growing birds (high amplitude peaks with an inter-peak interval of 90 min). A 120-122 kDa protein in liver and muscle, and a dominant 130-136 kDa protein in the muscle, that was phosphorylated in response to GH, were specifically recognized by the JAK2 antibody. Chronic, pulsatile infusion of cGH into 8-week-old chickens was associated with increased abundance and tyrosine phosphorylation of JAK2 protein in both liver and muscle (P 0.05), which were GH dose-dependent, and mirrored previously reported biological responses for the same birds [Vasilatos-Younken, R., Zhou, Y., Wang, X., McMurtry, J.P., Rosebrough, R.W., Decuypere, E., Buys, N., Darras, V.M., Van Der Geyten, S., Tomas, F., 2000. Altered chicken thyroid hormone metabolism with chronic GH enhancement in vivo: Consequences for skeletal muscle growth. Journal of Endocrinology 166, 609-620.]. In summary (1) JAK2 immunoreactive proteins that associate with the GHR and are tyrosine phosphorylated in response to GH were identified in an avian hepatoma cell line and expressed in both GH responsive (liver) and non-responsive (skeletal muscle) tissues; (2) tyrosine phosphorylation of JAK2 occurred within minutes of exposure to a single i.v. injection of GH in vivo in muscle but not liver of 8-week-old birds; and 3) there were GH dose-dependent increases in abundance of JAK2 protein and tyrosine phosphorylation in both tissues when chronically exposed to GH in a physiologically relevant pattern, that mirrored dose-dependent biological responses, including alterations in the pathway of thyroid hormone metabolism, previously reported. Enhanced JAK2 suggests one possible mechanism whereby chronic, physiologically appropriate exposure to the ligand enhances GH biological action via increased abundance of a key upstream component of the signal transduction pathway. | | 15993410
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Differential requirement of the cytoplasmic subregions of gamma c chain in T cell development and function. Tsujino, S; Di Santo, JP; Takaoka, A; McKernan, TL; Noguchi, S; Taya, C; Yonekawa, H; Saito, T; Taniguchi, T; Fujii, H Proceedings of the National Academy of Sciences of the United States of America
97
10514-9
2000
概要を表示する
The common cytokine receptor gamma chain (gammac), a shared component of the receptors for IL-2, IL-4, IL-7, IL-9, and IL-15, is critical for the development and function of lymphocytes. The cytoplasmic domain of gammac consists of 85 aa, in which the carboxyl-terminal 48 aa are essential for its interaction with and activation of the Janus kinase, Jak3. Evidence has been provided that Jak3-independent signals might be transmitted via the residual membrane-proximal region; however, its role in vivo remains totally unknown. In the present study, we expressed mutant forms of gammac, which lack either most of the cytoplasmic domain or only the membrane-distal Jak3-binding region, on a gammac null background. We demonstrate that, unlike gammac or Jak3 null mice, expression of the latter, but not the former mutant, restores T lymphopoiesis in vivo, accompanied by strong expression of Bcl-2. On the other hand, the in vitro functions of the restored T cells still remained impaired. These results not only reveal the hitherto unknown role of the gammac membrane-proximal region, but also suggest the differential requirement of the cytoplasmic subregions of gammac in T cell development and function. | | 10962026
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Altered interleukin-12 responsiveness in Th1 and Th2 cells is associated with the differential activation of STAT5 and STAT1. Gollob, J A, et al. Blood, 91: 1341-54 (1998)
1998
概要を表示する
T-cell activation in response to interleukin-12 (IL-12) is mediated through signaling events that include the tyrosine phosphorylation of STAT4. IL-12 responsiveness and the ability of IL-12 to activate STAT4 is different in T cells induced to differentiate into a Th1 or Th2 phenotype. In this report, we show that STAT5, STAT1alpha, and STAT1beta, in addition to STAT4, are tyrosine phosphorylated in response to IL-12 in phytohemagglutinin (PHA)-activated human T cells. To understand how the activation of these STATs contributes to T-cell IL-12 responsiveness, we analyzed the IL-12-induced activation of STAT5 and STAT1 in T cells stimulated to undergo Th1 or Th2 differentiation. The IL-12-induced tyrosine phosphorylation of STAT5 and STAT1, but not STAT4, is augmented in T cells activated into Th1 cells with PHA + interferon-gamma (IFN-gamma) compared with T cells activated with PHA alone. STAT5 DNA binding induced by IL-12 is also augmented in T cells activated with PHA + IFN-gamma compared with T cells activated with PHA alone, whereas STAT4 DNA binding is not increased. In contrast, the IL-12-induced activation of these STATs is inhibited in T cells activated into Th2 cells with PHA + IL-4. The enhancement of IL-12 signaling by IFN-gamma is not a direct effect of IFN-gamma on T cells, but rather is mediated by IL-12 that is produced by antigen-presenting cells in response to IFN-gamma. This positive autoregulatory effect of IL-12 on the activation of select STATs correlates with an increase in T-cell IFN-gamma production in response to IL-12. These findings suggest that the activation of STAT5 and STAT1 may augment select STAT4-dependent functional responses to IL-12 in Th1 cells. | | 9454765
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Involvement of proteasomes in regulating Jak-STAT pathways upon interleukin-2 stimulation Yu, C. L. and Burakoff, S. J. J Biol Chem, 272:14017-20 (1997)
1997
| Immunoblotting (Western), Immunoprecipitation | 9162019
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A Kaposi's sarcoma-associated herpesvirus-encoded cytokine homolog (vIL-6) activates signaling through the shared gp130 receptor subunit Molden, J., et al J Biol Chem, 272:19625-31 (1997)
1997
| Immunoprecipitation | 9235971
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An interleukin (IL)-13 receptor lacking the cytoplasmic domain fails to transduce IL-13-induced signals and inhibits responses to IL-4 Orchansky, P. L., et al J Biol Chem, 272:22940-7 (1997)
1997
| Immunoprecipitation | 9278458
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Molecular characterization of specific interactions between SHP-2 phosphatase and JAK tyrosine kinases Yin, T., et al J Biol Chem, 272:1032-7 (1997)
1997
| Immunoblotting (Western), Immunoprecipitation | 8995399
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Shared gamma(c) subunit within the human interleukin-7 receptor complex. A molecular basis for the pathogenesis of X-linked severe combined immunodeficiency. Lai, S Y, et al. J. Clin. Invest., 99: 169-77 (1997)
1997
概要を表示する
Genetic evidence suggests that mutations in the gamma(c) receptor subunit cause X-linked severe combined immunodeficiency (X-SCID). The gamma(c) subunit can be employed in receptor complexes for IL-2, -4, -7, -9, and -15, and the multiple signaling defects that would result from a defective gamma(c) chain in these receptors are proposed to cause the severe phenotype of X-SCID patients. Interestingly, gene disruption of either IL-7 or the IL-7 receptor (IL-7R) alpha subunit in mice leads to immunological defects that are similar to human X-SCID. These observations suggest the functional importance of gamma(c) in the IL-7R complex. In the present study, structure/function analyses of the IL-7R complex using a chimeric receptor system demonstrated that gamma(c) is indeed critical for IL-7R function. Nonetheless, only a limited portion of the cytoplasmic domain of gamma(c) is necessary for IL-7R signal transduction. Furthermore, replacement of the gamma(c) cytoplasmic domain by a severely truncated erythropoeitin receptor does not affect measured IL-7R signaling events. These findings support a model in which gamma(c) serves primarily to activate signal transduction by the IL-7R complex, while IL-7R alpha determines specific signaling events through its association with cytoplasmic signaling molecules. Finally, these studies are consistent with the hypothesis that the molecular pathogenesis of X-SCID is due primarily to gamma(c)-mediated defects in the IL-7/IL-7R system. | Immunoblotting (Western) | 9005984
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Jak1 expression is required for mediating interleukin-4-induced tyrosine phosphorylation of insulin receptor substrate and Stat6 signaling molecules. Chen, X H, et al. J. Biol. Chem., 272: 6556-60 (1997)
1997
概要を表示する
The Jak1, Jak2, Jak3, and Fes tyrosine kinases have been demonstrated to undergo tyrosine phosphorylation in response to interleukin (IL)-4 stimulation in different cell systems. However, it is not clear which, if any, of these kinases are responsible for initiating IL-4-induced tyrosine phosphorylation of intracellular substrates in vivo. In the present study, we have utilized a mutant Jak1-deficient HeLa cell line, E1C3, and its parental Jak1-expressing counterpart, 1D4, to analyze the role of Jak1 in mediating IL-4-induced tyrosine phosphorylation events. IL-4 treatment rapidly induced tyrosine phosphorylation of insulin receptor substrate (IRS)-1 and IRS-2 in 1D4 but not in E1C3 cells. IL-4-mediated tyrosine phosphorylation of Stat6 was pronounced in 1D4 cells, while no IL-4-induced Stat6 phosphorylation was detected in E1C3 cells. IL-4 also induced Stat6 DNA binding activity from lysates of 1D4 but not E1C3 cells utilizing a radiolabeled immunoglobulin heavy chain germline epsilon promotor sequence (Iepsilon) in an electrophoretic mobility shift assay. Reconstitution of Jak1 expression in E1C3 cells restored the ability of IL-4 to induce IRS and Stat6 tyrosine phosphorylation. These results provide evidence that Jak1 expression is required for mediating tyrosine phosphorylation and activation of crucial molecules involved in IL-4 signal transduction. | Immunoblotting (Western) | 9045682
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