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  • 1
    Keywords: RECEPTOR ; CELLS ; EXPRESSION ; IN-VITRO ; IRRADIATION ; proliferation ; SURVIVAL ; CELL ; COMBINATION ; IN-VIVO ; VIVO ; GENERATION ; PROTEIN ; PROTEINS ; transcription ; MICE ; ACTIVATION ; DNA ; TRANSCRIPTION FACTOR ; ANTIGEN ; T cell ; T cells ; T-CELL ; T-CELLS ; BINDING ; PHOSPHORYLATION ; CELL-SURVIVAL ; ELEMENT ; ELEMENT-BINDING PROTEIN ; knockout ; MUTANT ; NO ; TRANSCRIPTION FACTORS ; TRANSGENIC MICE ; PROMOTER ; transgenic ; RESPONSIVE ELEMENT ; T lymphocyte ; OVEREXPRESSION ; rodent ; T lymphocytes ; BINDING PROTEIN ; thymus ; BINDING-PROTEIN ; IL-2 PRODUCTION ; MOLECULAR-BASIS
    Abstract: Recent generation of genetically modified Creb1 mutant mice has revealed an important role for CREB (CAMP responsive element binding protein) and the related proteins CREM (CAMP responsive element modulator) and ATF1 (activating transcription factor 1) in cell survival, in agreement with previous studies using overexpression of dominant-negative CREB (dnCREB). CREB and ATF1 are abundantly expressed in T cells and are rapidly activated by phosphorylation when T cells are stimulated through the T cell antigen receptor. We show that T cell-specific loss of CREB in mice, in combination with the loss of ATF1, results in reduced thymic cellularity and delayed thymic recovery following sublethal irradiation but no changes in T cell development or activation. These data show that loss of CREB function has specific effects on thymic T lymphocyte proliferation and homeostasis in vivo
    Type of Publication: Journal article published
    PubMed ID: 15214044
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  • 2
    Keywords: RECEPTOR ; EXPRESSION ; BLOOD ; CELL ; Germany ; IN-VIVO ; liver ; ENZYMES ; GENE ; GENES ; transcription ; METABOLISM ; MICE ; ACTIVATION ; kidney ; TRANSCRIPTION FACTOR ; INDUCTION ; hepatocytes ; MUTANT ; hormone ; DISRUPTION ; TANDEM MASS-SPECTROMETRY ; inactivation ; Jun ; GLUCOSE ; glucocorticoid receptor ; GLUCOCORTICOID-RECEPTOR ; ANTAGONIST ; insulin ; ABSENCE ; ADULT ; ENDOCRINE ; LEADS ; development ; CARBOXYKINASE GTP GENE ; HEPATIC GLUCONEOGENESIS ; PHOSPHOENOLPYRUVATE CARBOXYKINASE ; TYROSINE AMINOTRANSFERASE GENE
    Abstract: Hepatic glucose production by gluconeogenesis is the main source of glucose during fasting and contributes significantly to hyperglycemia in diabetes mellitus. Accordingly, glucose metabolism is tightly controlled by a variety of hormones including insulin, epinephrine, glucagon, and glucocorticoids (GCs) acting on various cell types. GC effects are mediated by the GC receptor (GR), a ligand-dependent transcription factor, which in the liver and kidney controls gluconeogenesis by induction of gluconeogenic enzymes. To specifically study the contribution of GC on liver carbohydrate metabolism, we generated mice with an inactivation of the GR gene exclusively in hepatocytes using the Cre/loxP technology. Half of the mutant mice die within the first 2 d after birth most likely due to hypoglycemia. Adult mice have normal blood sugar under basal conditions but show hypoglycemia after prolonged starvation due to reduced expression of genes involved in gluconeogenesis. We further demonstrate that absence of GR in hepatocytes limits the development of hyperglycemia in streptozotocin-induced diabetes mellitus probably due to impaired induction of gluconeogenesis. These findings show the essential role of GR function in liver glucose metabolism during fasting and in diabetic mice and indicate that liver-specific GC antagonists could be beneficial in control of diabetic hyperglycemia
    Type of Publication: Journal article published
    PubMed ID: 15031319
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  • 3
    Keywords: RECEPTOR ; APOPTOSIS ; CELLS ; EXPRESSION ; IN-VITRO ; SURVIVAL ; tumor ; Germany ; IN-VIVO ; INHIBITION ; PATHWAY ; PATHWAYS ; VITRO ; DEATH ; GENE ; MICE ; TRANSDUCTION ; COMPLEX ; COMPLEXES ; MECHANISM ; T-CELL ; T-CELLS ; BINDING ; signal transduction ; CD95 ligand ; CELL-DEATH ; PROMOTER ; MUTATION ; SIGNAL-TRANSDUCTION ; inactivation ; FACTOR-KAPPA-B ; glucocorticoid receptor ; GLUCOCORTICOID-RECEPTOR ; REPRESSION ; CROSS-TALK ; CD95 ; signaling ; molecular ; PROGRAM ; RE ; PH ; regulation ; RHEUMATOID-ARTHRITIS ; INFLAMMATORY RESPONSES ; cell death ; ABILITY ; APOPTOTIC CELLS ; FAS LIGAND ; NEGATIVE REGULATION ; THYMOCYTE DEVELOPMENT
    Abstract: Glucocorticoids (GCs) play an important role in the regulation of peripheral T-cell survival. Their molecular mechanism of action and the question of whether they have the ability to inhibit apoptosis in vivo, however, are not fully elucidated. Signal transduction through the glucocorticoid receptor (GR) is complex and involves different pathways. Therefore, we used mice with T-cell-specific inactivation of the GR as well as mice with a function-selective mutation in the GR to determine the signaling mechanism. Evidence is presented for a functional role of direct binding of the GR to 2 negative glucocorticoid regulatory elements (nGREs) in the CD95 (APO-1/Fas) ligand (L) promoter. Binding of GRs to these nGREs reduces activation-induced CD95L expression in T cells. These in vitro results are fully supported by data obtained in vivo. Administration of GCs to mice leads to inhibition of activation-induced cell death (AICD). Thus, GC-mediated inhibition of CD95L expression of activated T cells might contribute to the anti-inflammatory function of steroid drugs
    Type of Publication: Journal article published
    PubMed ID: 15802531
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  • 4
    Keywords: RECEPTOR ; GROWTH ; CELL ; Germany ; IN-VIVO ; MODEL ; VIVO ; SUPPORT ; liver ; GENE ; GENE-EXPRESSION ; PROTEIN ; PROTEINS ; transcription ; MICE ; ACTIVATION ; TRANSCRIPTION FACTOR ; REDUCTION ; hepatocytes ; TRANSCRIPTION FACTORS ; hormone ; inactivation ; DNA-BINDING ; REGION ; REGIONS ; TARGETED DISRUPTION ; BINDING PROTEIN-3 ; I IGF-I ; postnatal body growth,glucocorticoid receptor,growth hormone signaling,Stat5 ; STAT5B
    Abstract: Mice carrying a hepatocyte-specific inactivation of the glucorticoid receptor (GR) gene show a dramatic reduction in body size. Growth hormone signaling mediated by the Stat5 transcription factors is impaired. We show that Stat5 proteins physically interact with GR and GR is present in vivo on Stat5-dependent IGF-I and ALS regulatory regions. Interestingly, mice with a DNA-binding-deficient GR but an unaltered ability to interact with STAT5(GR(dim/dim)) have a normal body size and normal levels of Stat5-dependent mRNAs. These findings strongly support the model in which GR acts as a coactivator for Stat5-dependent transcription upon GH stimulation and reveal an essential role of hepatic GR in the control of body growth
    Type of Publication: Journal article published
    PubMed ID: 15037546
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