Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.2.3.23 (GAS)
 957 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin (Ang) II stimulates proliferation of vascular smooth muscle cells (VSMC) via its specific receptor AT1 subtype, possibly leading to atherosclerosis in hypertension. On the other hand, a cytokine interferon (IFN)-gamma has been shown to have an anti-atherosclerotic effect. In the present study, we examined a possible role of IFN-gamma in AT1 receptor gene regulation in VSMC. A firefly luciferase expression vector driven by the rat AT1a receptor gene promoter ( approximately 3.2 kb) was transfected into the cultured rat VSMC, and luciferase expression was determined to estimate the transcription function of the AT1a receptor gene promoter. RT-PCR was also carried out to determine mRNA expression of AT1a receptor in VSMC. IFN-gamma treatment decreased AT1a receptor mRNA expression as well as luciferase expression in a dose-dependent manner. The analysis with deletion DNA fragments showed that the IFN-responsive element was located between -987 and -331 positions, where multiple GAS (gamma interferon activated site)-like elements were identified. The expression suppression was reversed by either a MAPKK inhibitor PD98059 or a Jak-2 inhibitor AG-490. These results suggest that IFN-gamma can inhibit AT1 receptor expression at gene transcription level, and that the transcription suppression is dependent on MAP kinase and Jak-2. Inhibition of AT1a receptor expression may possibly be implicated in the anti-atherosclerotic action of IFN-gamma in VSMC.
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PMID:Transcriptional suppression of rat angiotensin AT1a receptor gene expression by interferon-gamma in vascular smooth muscle cells. 1046 2

Some biochemical events following the binding of prolactin (PRL) to its receptor in normal human leukocytes were investigated. PRL enhanced JAK2 phosphorylation in peripheral blood mononuclear cells (PBMC) but not in granulocytes. PRL also induced phosphorylation of Stat-5 in PBMC and Stat-1 in granulocytes. Subsequent binding of Stat-5- and of Stat-1-like molecules to a GAS responsive element from the beta-casein promoter was detected by EMSA. p38 MAPK (but not p42/p44 MAPK) was activated by PRL in both leukocyte populations. PRL induced iNOS and CIS mRNA expression in granulocytes. Increased expression of IRF-1 and SOCS-2 was observed in granulocytes and of SOCS-3 and iNOS in PBMC. Similar effects were obtained with ovine and human PRL. Antiserum to PRL reduced iNOS and IRF-1 expression induced by PRL in granulocytes and reduced iNOS expression in PBMC. Also, pretreatment of granulocytes with a p38 MAPK inhibitor (SB 203580) prevented in part PRL-induced iNOS and IRF-1 expression. In PBMC, the p38 inhibitor decreased PRL-induced iNOS gene expression. These results indicate that PRL-induced gene regulation in leukocytes requires the activation of at least two different pathways: the Stat and the MAP kinase pathways. Moreover, although PRL activates Stat in both leukocyte types, signal transduction is different in granulocytes and in PBMC. Most importantly, PRL modulates the expression of genes crucial to leukocyte function. The present findings reinforce the concept that PRL has "cytokine-like" activity in human leukocytes.
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PMID:Cytokine-like effects of prolactin in human mononuclear and polymorphonuclear leukocytes. 1169 20

Protein kinase C-theta (PKC-theta) plays important roles in the activation and survival of lymphocytes and is the predominant PKC isoform expressed in T-cells. Interferons regulate T-cell function and activation, but the precise signaling mechanisms by which they mediate such effects have not been elucidated. We determined whether PKC-theta is engaged in interferon (INF) signaling in T-cells. Both Type I (alpha, beta) and Type II (gamma) IFNs induced phosphorylation of PKC-theta in human T-cell lines and primary human T-lymphocytes. Such phosphorylation of PKC-theta resulted in activation of its kinase domain, suggesting that this kinase plays a functional role in interferon signaling. Consistent with this, inhibition of PKC-theta protein expression using small interfering RNAs (siRNA) abrogated IFN-alpha- and IFN-gamma-dependent gene transcription via GAS elements. Similarly, blocking of PKC-theta kinase activity by overexpression of a dominant-negative PKC-theta mutant also blocked GAS-driven transcription, further demonstrating a requirement for PKC-theta in IFN-dependent transcriptional activation. The effects of PKC-theta on IFN-dependent gene transcription were not mediated by regulation of the IFN-activated STAT pathway, as siRNA-mediated PKC-theta knockdown had no effects on STAT1 phosphorylation and binding of STAT1-containing complexes to SIE/GAS elements. On the other hand, siRNA-mediated PKC-theta inhibition blocked phosphorylation/activation of MKK4, suggesting that interferon-dependent PKC-theta activation regulates downstream engagement of MAP kinase pathways. Altogether, these findings demonstrate that PKC-theta is an interferon-inducible kinase and strongly suggest that it plays an important role in the generation of interferon-responses in T-cells.
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PMID:Engagement of protein kinase C-theta in interferon signaling in T-cells. 1515 Feb 72