Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase activating polypeptide (PACAP), two structurally related neuropeptides produced and/or released within the lymphoid microenvironment, modulate numerous immune functions. Although primarily antiinflammatory in nature, VIP and PACAP also affect resting macrophages. In this study, we report on in vitro and in vivo dual effects of VIP/PACAP on the expression of B7.1 and B7.2 and on the costimulatory activity for T cells in unstimulated and LPS/IFN-gamma-activated macrophages. VIP and PACAP up-regulate B7.2, but not B7.1, expression and induce the capacity to stimulate the proliferation of naive T cells in response to soluble anti-CD3 or allogeneic stimulation. In contrast, both neuropeptides down-regulate B7.1/B7.2 expression on LPS/IFN-gamma-activated macrophages and inhibit the endotoxin-induced costimulatory activity for T cells. Interestingly, both the stimulatory and the inhibitory effects of VIP/PACAP are mediated through the specific receptor VPAC1 and involve the cAMP/protein kinase A transduction pathway. The dual effect on B7.1 and B7.2 expression occurs at both mRNA and protein level and correlates with the VIP/PACAP regulation of the macrophage costimulatory activity. Through their regulatory role for resting and activated macrophages, VIP and PACAP act as endogenous participants in the control of immune homeostasis. Their effects depend not only on the timing of their release, but also on the activation and differentiation state of the neighboring immune cells.
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PMID:VIP and PACAP differentially regulate the costimulatory activity of resting and activated macrophages through the modulation of B7.1 and B7.2 expression. 1051 Mar 58

Tumors interact with their environment, reprogramming host cells to induce responses such as angiogenesis, inflammation, immunity and immune suppression. To understand these processes, it is important to identify and isolate new genes whose expression is induced in host tissues in response to tumors. Ascites tumors offer an attractive model for isolating such genes, because responding host peritoneal lining tissues can be cleanly separated from tumor cells growing in suspension within the peritoneal cavity. We here report the cloning by differential display of a novel gene, DLM-1, that is highly up-regulated in the peritoneal lining tissue of mice bearing MOT ascites tumors. Mouse peritoneal macrophages, stimulated by IFN-gamma or LPS, also expressed significant amounts of DLM-1. Up-regulation of DLM-1 became evident by 4h after stimulation with IFN-gamma and was not blocked by cycloheximide, suggesting the presence of IFN responding elements in its transcription regulation region. DLM-1 RNA was detected at significant levels in normal mouse lung, intestinal epithelium, liver and thymus by Northern blot analysis. In situ hybridization of MOT and HT-29 mouse subcutaneous transplanted solid tumors revealed strong DLM-1 expression in the host reactive stromal cells, but not the tumor cells. Sequence analysis of the full-length cDNA clone revealed that it encodes a protein of approx. M(r) 44330 with multiple potential protein kinase C and casein kinase II phosphorylation sites. Our data suggest that DLM-1 plays a role in such important processes as host response in neoplasia.
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PMID:Cloning of DLM-1, a novel gene that is up-regulated in activated macrophages, using RNA differential display. 1056 22

Many cytokines have dual functions of promoting or inhibiting cell proliferation; however, the molecular mechanism of the dual functions of cytokines is not well understood. Under normal conditions, interleukin (IL)-3 is required for Ba/F3 cell proliferation, whereas interferon (IFN)-gamma inhibits Ba/F3 cell proliferation. It is known that Stat1 play a major role in inhibition of cell growth in response to IFN-gamma. We have examined the possibility of whether IFN-gamma can act as a growth-promoting cytokine if the Stat1 function is selectively blocked. We have established variant Ba/F3 cell lines in which Stat1 function is inhibited by a dominant-negative Stat1 mutant. Intriguingly, once Stat1 function is inhibited, IFN-gamma can replace IL-3 acting as an essential growth factor for cell proliferation. To understand the molecular mechanism of regulation of cell proliferation by the cytokines, the signaling pathways and gene induction by IL-3 and IFN-gamma are further studied. Although IL-3 activates mitogenic-activated protein kinase and Akt kinase, IFN-gamma does not. Interestingly, both IL-3 and IFN-gamma induce expression of the c-Myc gene that is not dependent on the Stat1 activity. Expression of a dominant-negative mutant Myc can block IFN-gamma-mediated Ba/F3 cell proliferation, suggesting that c-Myc gene induction is required for IFN-gamma-mediated cell proliferation. These findings suggest that IFN-gamma intrinsically and simultaneously induces specific and conflicting signaling pathways and transcriptional programs that contribute to the potential dual effects of IFN-gamma in promoting or inhibiting cell proliferation.
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PMID:Interferon-gamma has dual potentials in inhibiting or promoting cell proliferation. 1062 20

To clarify the biological significance of double-stranded RNA-dependent protein kinase (PKR), an interferon (INF)-inducible substance, we investigated (1) PKR gene expression and the (2) effect of IFN-gamma on PKR gene expression in human endometrium. By Northern blot analysis, PKR mRNA was detected as a 2.5 kb band in human endometrium throughout the menstrual cycle and decidua in early pregnancy. The addition of IFN-gamma to culture medium increased the PKR mRNA level in a dose-dependent manner in cultured endometrial stromal cells. These results suggest that IFN-gamma, which is reported to have an inhibitory effect on cell proliferation, plays an important role in human endometrial function by mediating PKR gene expression.
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PMID:Gene expression of double-stranded RNA-dependent protein kinase in the human endometrium and decidua. 1063 Apr 6

Interferons (IFNs) inhibit cell growth in a Stat1-dependent fashion that involves regulation of c-myc expression. IFN-gamma suppresses c-myc in wild-type mouse embryo fibroblasts, but not in Stat1-null cells, where IFNs induce c-myc mRNA rapidly and transiently, thus revealing a novel signaling pathway. Both tyrosine and serine phosphorylation of Stat1 are required for suppression. Induced expression of c-myc is likely to contribute to the proliferation of Stat1-null cells in response to IFNs. IFNs also suppress platelet-derived growth factor (PDGF)-induced c-myc expression in wild-type but not in Stat1-null cells. A gamma-activated sequence element in the promoter is necessary but not sufficient to suppress c-myc expression in wild-type cells. In PKR-null cells, the phosphorylation of Stat1 on Ser727 and transactivation are both defective, and c-myc mRNA is induced, not suppressed, in response to IFN-gamma. A role for Raf-1 in the Stat1-independent pathway is revealed by studies with geldanamycin, an HSP90-specific inhibitor, and by expression of a mutant of p50(cdc37) that is unable to recruit HSP90 to the Raf-1 complex. Both agents abrogated the IFN-gamma-dependent induction of c-myc expression in Stat1-null cells.
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PMID:Regulation of c-myc expression by IFN-gamma through Stat1-dependent and -independent pathways. 1063 30

Death-associated protein kinase (DAP-kinase) is a Ca(+2)/calmodulin-regulated serine/threonine kinase with a multidomain structure that participates in apoptosis induced by a variety of signals. To identify regions in this protein that are critical for its proapoptotic activity, we performed a genetic screen on the basis of functional selection of short DAP-kinase-derived fragments that could protect cells from apoptosis by acting in a dominant-negative manner. We expressed a library of randomly fragmented DAP-kinase cDNA in HeLa cells and treated these cells with IFN-gamma to induce apoptosis. Functional cDNA fragments were recovered from cells that survived the selection, and those in the sense orientation were examined further in a secondary screen for their ability to protect cells from DAP-kinase-dependent tumor necrosis factor-alpha-induced apoptosis. We isolated four biologically active peptides that mapped to the ankyrin repeats, the "linker" region, the death domain, and the C-terminal tail of DAP-kinase. Molecular modeling of the complete death domain provided a structural basis for the function of the death-domain-derived fragment by suggesting that the protective fragment constitutes a distinct substructure. The last fragment, spanning the C-terminal serine-rich tail, defined a new regulatory region. Ectopic expression of the tail peptide (17 amino acids) inhibited the function of DAP-kinase, whereas removal of this region from the complete protein caused enhancement of the killing activity, indicating that the C-terminal tail normally plays a negative regulatory role. Altogether, this unbiased screen highlighted functionally important regions in the protein and revealed an additional level of regulation of DAP-kinase apoptotic function that does not affect the catalytic activity.
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PMID:A functional genetic screen identifies regions at the C-terminal tail and death-domain of death-associated protein kinase that are critical for its proapoptotic activity. 1067 1

The RNA-dependent protein kinase (PKR) is implicated in the antiviral and antiproliferative actions of interferon (IFN). As an extension of our structural characterization of the exon-intron organization of the mouse Pkr gene, we now have isolated and characterized the mouse Pkr promoter region required for IFN-inducible transcription. Transient transfection analyses, using reporter constructs possessing various 5'-flanking fragments of the Pkr gene, led to the identification of a functional IFN-inducible promoter. A single IFN-stimulated response element (ISRE) was present in a minimal 44-nt TATA-less promoter identified by deletion analysis; the 13-nt ISRE differed from previously described ISRE elements in that the 3'-nt was a purine instead of a pyrimidine. The sequence immediately upstream of the ISRE possessed the 15-nt KCS element that was exactly conserved in sequence and position between the mouse and human Pkr promoters. A single gamma IFN-activated sequence (GAS)-like element and multiple recognition sites for factors including NF-kappaB and NF-IL6 involved in responses to various cytokine and hormone signals in inflammatory responses were also present in the 5'-flanking region. Northern blot analysis showed efficient IFN-alpha induced accumulation of 2.4kb, 4.5kb and approx. 6kb Pkr transcripts, but neither IFN-gamma nor IL-6 induced detectable Pkr mRNA accumulation in L cells.
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PMID:Mouse interferon-inducible RNA-dependent protein kinase Pkr gene: cloning and sequence of the 5'-flanking region and functional identification of the minimal inducible promoter. 1076 60

In attempts to elucidate the pathogenic mechanisms involved in neurodegeneration in AIDS patients with cognitive deficits, the possible effect of HIV-1 transmembrane envelope protein gp41 on expression of the membrane inhibitor of complement mediated cytolysis (CD59) was assessed in human neuronal (SK-N-SH) and astroglial (T98G) cell lines. Western blotting analyses demonstrated that an immunodominant (ID, aa 598-613) gp41 peptide as well as the recombinant gp41 protein encompassing this domain markedly reduced CD59 level in a dose dependent manner whereas p24 and control peptide had little effect. RT-PCR showed that ID peptide also elicited a reduction in the expressed CD59 mRNA level. This gp41 peptide apparently down-regulated phorbol 12,13-dibutyrate induced elevation of CD59 at the protein and mRNA levels in a manner similar to that conferred by protein kinase C inhibitor, H-7 or staurosporine in SK-N-SH. Interestingly, proinflammatory cytokines such as IL-1beta or IFN-gamma as well as LPS greatly decreased CD59 in SK-N-SH and to a lesser extent in T98G whereas TNF-alpha did not significantly alter it. In contrast, antioxidants and anti-inflammatory agents enhanced CD59 expression reversing gp41 peptide mediated inhibitory effect in SK-N-SH. Our data suggest that high level of gp41 or its metabolites as well as impaired protein kinase response, chronic inflammation or antioxidant depletion within HIV-1 infected brains may be associated with a diminished expression of CD59 which would render neuronal cells to susceptible to indirect bystander lysis in the presence of autologous complement.
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PMID:Expression of complement inhibitor protein CD59 in human neuronal and glial cell lines treated with HIV-1 gp41 peptides. 1078 97

The paper presents a review of data on the localization of interferons (IFNs) and IFN system genes and their relationship with human diseases, mainly cancer. Genes of interferon system proteins are located at the sites of breakpoints of the structural chromosome aberrations in cancer. Thus, any of them are rearranged or translocated in various tumor types. As the activity of these genes plays a role in cancer development, their rearrangements may be one of the crucial points in the pathogenesis of some cancer types. Besides, they also take part in organism immunity against viral infections. Transfection experiments with IFN system genes have proved the influence of these genes on cancer behavior and may serve as a basis for clinical gene therapy. IFN-alpha and IFN-beta genes are located at 9p21-22, the site of frequent homozygotic deletions in cancer. Their loss sensitizes cells to the growth inhibitory actions of exogenous IFNs. The IFN-gamma gene, a representative of class II genes, is located at 12q24.1. Transfection of class II IFNs genes to cancer cell lines causes cell proliferation arrest and augments the expression of HLA antigens, which may be clinically useful in stimulating the immune destruction of tumor cells. The interferon regulatory factor 1 (IRF-1) gene is located at 5q31, the site of common deletions in myelodysplastic syndromes (MDS) and secondary leukemias. The loss of heterozygosity of this gene was found in MDS, which proves that IRF-1 may be a tumor suppressor. A transfection of its gene causes neoplastic transformation arrest. The double-stranded RNA-activated protein kinase (PKR) gene is located at 2p21-22, a region which is frequently rearranged in leukemia. Transfection of a wild type PKR gene reverses neoplastic transformation caused by transfection of a mutated PKR gene, proving that PKR acts as a dominant negative cancer suppressor.
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PMID:The genes of interferons and interferon-related factors: localization and relationships with chromosome aberrations in cancer. 1080 49

IL-2 stimulates extracellular signal-regulated protein kinase (ERK) and p38 mitogen-activated protein kinase (MAPK) in various immune cell populations. The functional roles that these kinases play are still unclear. In this study, we examined whether MAPK kinase (MKK)/ERK and p38 MAPK pathways are necessary for IL-2 to activate NK cells. Using freshly isolated human NK cells, we established that an intact MKK/ERK pathway is necessary for IL-2 to activate NK cells to express at least four known biological responses: LAK generation, IFN-gamma secretion, and CD25 and CD69 expression. IL-2 induced ERK activation within 5 min. Treatment of NK cells with a specific inhibitor of MKK1/2, PD98059, during the IL-2 stimulation blocked in a dose-dependent manner each of four sequelae, with inhibition of lymphokine-activated killing induction being least sensitive to MKK/ERK pathway blockade. Activation of p38 MAPK by IL-2 was not detected in NK cells. In contrast to what was observed by others in T lymphocytes, SB203850, a specific inhibitor of p38 MAPK, did not inhibit IL-2-activated NK functions. This data indicate that p38 MAPK activation was not required for IL-2 to activate NK cells for the four functions examined. These results reveal selective signaling differences between NK cells and T lymphocytes; in NK cells, the MKK/ERK pathway and not p38 MAPK plays a critical positive regulatory role during activation by IL-2.
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PMID:IL-2 activation of NK cells: involvement of MKK1/2/ERK but not p38 kinase pathway. 1084 77


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