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Query: UNIPROT:P04141 (
granulocyte-macrophage colony-stimulating factor
)
6,790
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We previously proposed the hypothesis that the pro-inflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) plays a pivotal role in the pathogenesis of rheumatoid arthritis (RA) based on our observations that it is the dominant inducer of interleukin-1 (IL-1) and
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) production in RA synovial joint mononuclear (MNC) cells in culture. Since TNF-alpha acts via two membrane receptors, we have extended those studies to investigate the distribution of the p55 and p75 TNF receptors (TNF-R) in RA tissue. Surface receptor expression was quantitated by flow cytometry using monoclonal antibodies specific to the p55 (HTR-9) and the p75 (
UTR
-1) TNF-R. Both receptors were significantly increased on MNC isolated from the synovial membrane of RA patients compared to normal or RA peripheral blood MNC. Interestingly, the p75 TNF-R was increased both on large monocytic/macrophage-type cells and CD3+ lymphocytes. Furthermore, there was a significant increase in the proportion of CD3+ cells in RA synovial fluid expressing the p75 TNF-R, compared to matched peripheral blood MNC. In contrast to RA synovial MNC, p75 or p55 TNF-R expression was not significantly increased in osteoarthritis synovial MNC. In addition, Northern blot analysis indicated abundant expression of both p55 and p75 mRNA in RA synovial joint MNC. This was in contrast to normal peripheral blood MNC cells which contained little or no constitutive TNF-R mRNA; following stimulation with phytohemagglutinin and IL-2, a rapid and transient expression of both receptor mRNA was induced. These results, therefore, indicate that in RA synovial joint tissue there is up-regulation of both p55 and p75 TNF-R mRNA and surface protein expression, and with the presence of TNF-alpha in RA tissues, these results provide support to our hypothesis that TNF-alpha is of critical importance in the pathogenesis of RA.
...
PMID:Enhanced expression of tumor necrosis factor receptor mRNA and protein in mononuclear cells isolated from rheumatoid arthritis synovial joints. 132 May 71
Tumor necrosis factor (TNF)-alpha and TNF-beta have multiple effects on human acute myeloid leukemia (AML) cells in vitro, including (1) synergistic stimulation of proliferation with interleukin-3 (IL-3) and
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) and upregulation of interleukin-3 (IL-3) and
GM-CSF
receptors; (2) inhibition of granulocyte-CSF (G-CSF)-induced growth and rapid downmodulation of G-CSF receptors; and (3) induction of autocrine growth. Recently, two distinct TNF receptors (TNF-Rs), TNF-R(p55) and TNF-R(p75), have been identified. In this study, we show that both receptor types may be expressed by AML blasts. It has been investigated whether the different effects of TNF on AML blasts can be explained by differential activation of the distinct TNF-R structures. For this purpose, we used the monoclonal antibodies HTR-1 and HTR-9, specifically recognizing TNF-R(p55), and
UTR
-1, specific for TNF-R(p75). TNF-(alpha and -beta) mediated synergistic activation with IL-3/
GM-CSF
, upregulation of IL-3/
GM-CSF
receptors, inhibition of G-CSF-induced growth, and rapid downmodulation of G-CSF receptors exclusively result from activation of TNF-R(p55). In certain cases in which TNF-alpha, rather than TNF-beta, induces AML growth through an autocrine mechanism, both TNF-R(p55) and (p75) are involved. These data indicate that the variety of TNF responses observed in AML can only be partially explained by differential activation of the TNF-R(p55) and (p75) structures, and that TNF-R(p55) on AML blasts can transduce both positive (synergism with IL-3/
GM-CSF
) and negative regulatory signals (inhibition of G-CSF-induced proliferation) following TNF activation.
...
PMID:Involvement of tumor necrosis factor (TNF) receptors p55 and p75 in TNF responses of acute myeloid leukemia blasts in vitro. 138 4
The mechanisms which control the production of erythropoietin (Epo) remain enigmatic. Recent data suggest that the half-time of Epo messenger RNA (mRNA) is increased by hypoxia in Hep 3B cells, a human hepatoma line. The post-transcriptional regulation of other rapidly degraded mRNAs is mediated by sequence-specific mRNA binding proteins. In order to determine if Epo mRNA specific binding proteins exist, we probed cytosolic lysates from Hep 3B cells and mouse tissues with radiolabeled Epo RNA. A cytosolic protein that binds specifically to Epo RNA was identified in the Epo-producing, hepatoblastoma Hep 3B cell line by gel mobility shift assay. This protein was identified in both normoxic and hypoxic cells and bound specifically to a 120-base fragment of the 3'-untranslated region (3'-
UTR
) of Epo mRNA. Binding was completed with unlabeled Epo RNA, but not with
granulocyte-macrophage colony-stimulating factor
RNA. Ultraviolet light cross-linked Epo RNA-protein complexes migrated as two bands of 70 and 135-140 kD on sodium dodecyl sulfate-polyacrylamide gels. Binding activity was markedly increased in brain and spleen lysates from mice subjected to 24 h of hypoxia. Therefore, the post-transcriptional regulation of Epo expression in response to hypoxia may in part be due to the interaction of Epo RNA with its specific binding protein.
...
PMID:Hypoxia up-regulates the activity of a novel erythropoietin mRNA binding protein. 165 42
Phorbol esters (TPA) and concanavalin A (ConA) are known to induce
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) production in murine thymoma EL-4 cells by mRNA stabilization. The role of the 3'-untranslated region (3'-
UTR
) in
GM-CSF
mRNA stabilization induced by TPA and ConA in EL-4 cells was examined by transfection studies using chloramphenicol acetyltransferase (CAT) constructions. The
GM-CSF
3'-
UTR
contains a 63-nucleotide region at its 3' end with repeating ATTTA motifs which is responsible for mRNA degradation in a variety of cell types (Shaw, G., and Kamen, R. (1986) Cell 46, 659-666). We produced constructs containing most of the
GM-CSF
3'-
UTR
(303 nucleotides, pRSV-CATgm) or the 3'-terminal AT-rich region (116 nucleotides, pRSV-CATau) and measured CAT enzyme activity and CAT mRNA after transient transfection into EL-4 and NIH 3T3 cells. Low levels of CAT activity were seen in both cells with either plasmid compared with levels of CAT activity obtained with pRSV-CAT. TPA treatment caused an approximately 10-fold increase in CAT activity and mRNA in EL-4 cells transfected with pRSV-CATgm. No increases were seen in EL-4 cells transfected with pRSV-CATau or pRSV-CAT. No response to TPA was detected in transfected NIH 3T3 cells, indicating that the response to TPA is relatively cell-specific. There was no increase in CAT activity after ConA treatment in EL-4 or NIH 3T3 cells transfected with any of the constructs suggesting that the
GM-CSF
3'-
UTR
lacks elements that can respond alone to ConA. Nuclear run-on and actinomycin D chase experiments in EL-4 cells showed that TPA induces CAT activity via mRNA stabilization. By linker-substitution mutagenesis we show that TPA inducibility depends on a 60-nucleotide region of the 3'-
UTR
whose 5' end is located 160 nucleotides upstream of the 5' end of the AU-rich region.
...
PMID:Identification of sequences within the murine granulocyte-macrophage colony-stimulating factor mRNA 3'-untranslated region that mediate mRNA stabilization induced by mitogen treatment of EL-4 thymoma cells. 191 35
Many RNAs coding for either cytokines or oncogenes are unstable and have a short half-life (t1/2). The AUUUA motif is a highly conserved sequence and is repeated three or more times in the 3' untranslated region (3'
UTR
) of RNAs encoding many of these short-lived cytokines and oncogenes. These sequences can confer instability. In this study, we investigated the role of number and location of AUUUA motifs in stabilization of RNA. We introduced 1xATTTA, 2xATTTA, ATTTTTTTA (second adenosine of 2xATTTA was substituted with a thymidine), 3xATTTA, 5xATTTA, 7xATTTA [AT-rich sequence from
granulocyte-macrophage colony-stimulating factor
[GM-CSF] gene (AT-62)], and GC-62 (GC sequences were substituted for ATTTA sequences in the 7xATTTA) into the 3'
UTR
of rabbit beta-globin (R beta G) gene. This construct also contained the neomycin-resistance gene. These expression vectors were transfected into human lung fibroblasts (W138), which constitutively expressed low levels of GM-CSF mRNA. Stable transfectants were selected by growth in G418. Northern blot analysis of actinomycin D-treated, stably transfected cells demonstrated that the number of AUUUA sequences correlated with rapidity of turnover of the chimeric R beta G mRNA. The rank order of stability was GC-62 = 1xATTTA = 2xATTTA (no RNA decay at 4 hours) > 3xATTTA = 5xATTTA (t1/2, 4 hours) > 7xATTTA (t1/2, 2 hours). Stability of mRNA of R beta G also was reduced (t1/2, 2 to 4 hours) when AT-62 was introduced into the second exon of R beta G gene. In these same cells, the t1/2 of GM-CSF RNA was approximately 10 to 15 minutes, suggesting that the AUUUA motifs cannot alone account for the rapid degradation of this cytokine mRNA. Phorbol diesters, including 12-0-tetradecanoyl phorbol 13-acetate (TPA), stabilize a variety of transiently expressed RNAs, including GM-CSF RNA. We found that TPA markedly increased (> 30-fold) the accumulation of GM-CSF RNA. In contrast, TPA was unable to stimulate the levels of the chimeric R beta G when either 1x, 2x, 3x, or 5xATTTA motifs were fused to 3'
UTR
, or when either AT-62 or GC-62 control sequences were fused to the second exon. The chimeric beta-globin construct with either AT-62 or ATTTTTTTA in the 3'
UTR
had only an approximately twofold to threefold increase in accumulation.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Number and location of AUUUA motifs: role in regulating transiently expressed RNAs. 819 53
The level of
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
) mRNA is fourfold lower in phorbol myristate acetate (PMA) + phytohemagglutinin (PHA)-activated mononuclear cells (MNC) from newborns compared with adults. The
GM-CSF
transcription rate is similar in umbilical cord and adult MNC, but transcript half-life is threefold lower in cord activated MNC. Interaction of RNA binding proteins, such as the cloned adenosine + uridine-rich element, binding factor, AUF1, with eight AUUUA motifs in the human
GM-CSF
mRNA 3'-untranslated region (GM-3'-
UTR
) has been implicated in regulating transcript stability. Translational inhibition by cycloheximide (CHX) significantly increased
GM-CSF
mRNA accumulation and half-life by three-fold in activated cord MNC, but had a minimal effect in activated adult MNC as compared with PMA + PHA alone. Electrophoretic mobility-shift assays with a 32P-labeled, 305-nucleotide RNA comprising the GM-3'-
UTR
revealed two RNaseT1-resistant, bound complexes that were almost twice as abundant in cord than in adult MNC extracts. Mobility-shift competition assays and RNaseT1 mapping localized the binding site of both complexes to a 52-nucleotide region containing seven of eight AUUUA motifs. Inclusion of AUF1 antiserum produced a supershifted complex at 35-fold higher levels in cord than in adult MNC extracts. Extracts from the carcinoma cell line 5637, with extended
GM-CSF
mRNA half-life, also had very low levels of anti-AUF1 supershifted complex. Anti-AUF1 immunoblotting showed significantly higher levels of two AUF1 protein isoforms and lower levels of one in cord than in adult MNC or 5637 extracts. These results suggest that destabilization of
GM-CSF
mRNA in cord MNC is translation-dependent and that increased levels of specific AUF1 isoforms in cord MNC may target transcripts for increased degradation, which could account in part for dysregulation of neonatal phagocytic immunity.
...
PMID:Increased granulocyte-macrophage colony-stimulating factor mRNA instability in cord versus adult mononuclear cells is translation-dependent and associated with increased levels of A + U-rich element binding factor. 887 85
To study the regulation of AUUUA-mediated RNA deadenylation and destabilization during Xenopus early development, we microinjected chimeric mRNAs containing Xenopus or mammalian 3' untranslated region (3'-
UTR
) sequences into Xenopus oocytes, mature eggs, or fertilized embryos. We found that the AU-rich elements (ARE) of Xenopus c-myc II and the human
granulocyte-macrophage colony-stimulating factor
gene (GMCSF) both direct deadenylation of chimeric mRNAs in an AUUUA-dependent manner. In the case of the Xenopus c-myc II ARE, mutation of a single AUUUA within an absolutely conserved 11-nucleotide region in c-myc 3'-UTRs prevents ARE-mediated deadenylation. AUUUA-specific deadenylation appears to be developmentally regulated: low deadenylation activity is observed in the oocyte, whereas rapid deadenylation occurs following egg activation or fertilization. Deadenylation results in the accumulation of stable deadenylated RNAs that become degraded only following mid-blastula transition. We conclude that ARE-mediated mRNA deadenylation can be uncoupled from ARE-mediated mRNA decay and that AUUUAs directly signal deadenylation during Xenopus early development.
...
PMID:AUUUA sequences direct mRNA deadenylation uncoupled from decay during Xenopus early development. 981 39
Eosinophils produce granulocyte macrophage colony-stimulating factor (GM-CSF), which enhances their survival and function. In T cells and fibroblasts, GM-CSF production is controlled predominantly by variable messenger RNA (mRNA) stability involving 3' untranslated region (3'
UTR
) adenosine-uridine-rich elements (AREs) and sequence-specific mRNA binding proteins. However, the mode of regulation of this critical cytokine remains unknown in eosinophils. Therefore, we measured GM-
CSF mRNA
decay in an eosinophil-like cell line (AML14.3D10) and, with a radiolabeled GM-CSF RNA probe, asked whether ARE-specific, mRNA binding proteins were present in cytoplasmic lysates of these cells. Human GM-
CSF mRNA
transfected into unstimulated AML14.3D10 cells decayed with a half-life of 6 min, which increased to 14 min after 1 h, and to 22 min after 2 h, of ionophore-mediated activation. GM-CSF RNA mobility shift assays using cytoplasmic extracts from resting or ionophore-stimulated AML14.3D10 cells revealed multiple RNA-protein complexes of 55, 60, 85, 100, and 125 kD. A 47-kD complex was also detected with an 80-base RNA probe containing four consecutive AUUUA motifs. On the basis of competition studies, all of the observed binding protein activities interacted with the 3'
UTR
AREs. In addition, binding activity increased 2.5-fold in cytoplasmic lysates from cells stimulated with calcium ionophore for 2 h, contemporaneous with GM-
CSF mRNA
stabilization. These data provide direct evidence that ionophore stabilizes GM-
CSF mRNA
in AML14.3D10 cells and simultaneously increases the activity of a series of AUUUA-specific mRNA binding proteins. We conclude that the interaction of AU-specific binding proteins may stabilize GM-
CSF mRNA
in activated eosinophil-like cell lines.
...
PMID:Calcium ionophore upregulation of AUUUA-specific binding protein activity is contemporaneous with granulocyte macrophage colony-stimulating factor messenger RNA stabilization in AML14.3D10 cells. 1053 21
The developmental immaturity of neonatal phagocytic function is associated with decreased accumulation and half-life (t((1)/(2))) of granulocyte/macrophage colony-stimulating factor (GM-CSF) mRNA in mononuclear cells (MNC) from the neonatal umbilical cord compared with adult peripheral blood. The in vivo t((1)/(2)) of GM-
CSF mRNA
is 3-fold shorter in neonatal (30 min) than in adult (100 min) MNC. Turnover of mRNA containing a 3'-untranslated region (3'-
UTR
) A + U-rich element (ARE), which regulates GM-
CSF mRNA
stability, is accelerated in vitro by protein fractions enriched for AUF1, an ARE-specific binding factor. The data reported here demonstrate that the ARE significantly accelerates in vitro decay of the GM-CSF 3'-
UTR
in the presence of either neonatal or adult MNC protein. Decay intermediates of the GM-CSF 3'-
UTR
are generated that are truncated at either end of the ARE. Furthermore, the t((1)/(2)) of the ARE-containing 3'-
UTR
is 4-fold shorter in the presence of neonatal (19 min) than adult (79 min) MNC protein, reconstituting developmental regulation in a cell-free system. Finally, accelerated ARE-dependent decay of the GM-CSF 3'-
UTR
in vitro by neonatal MNC protein is significantly attenuated by immunodepletion of AUF1, providing new evidence that this accelerated turnover is ARE- and AUF1-dependent.
...
PMID:Developmental regulation of RNA transcript destabilization by A + U-rich elements is AUF1-dependent. 1056 60
A genomics approach based on the conservation of synteny was used to develop a bacterial artificial chromosome (BAC) contig across the chicken T2 cytokine gene cluster. Sequencing of representative BACs showed that the chicken genome encodes genes for the homologs of mammalian interleukin-3 (IL-3), IL-4, IL-5, IL-13, and
granulocyte-macrophage colony-stimulating factor
(
GM-CSF
). These sequences represent the first T2 cytokines found outside of mammals, and their location demonstrates that the T2 cluster is ancient (at least 300 million years old). Four of these genes (IL-3, IL-4, IL-13, and
GM-CSF
) are expressed at the mRNA level and can be expressed as recombinant protein. In contrast to the other four genes, the chicken IL-5 (ChIL-5) gene we sequenced lacks a recognizable promoter and regulatory sequences in the predicted 3'-untranslated region (3'-
UTR
). Further, there is no evidence for its expression at the mRNA level. We, therefore, hypothesize that it is a pseudogene. Genomic analysis revealed that a recently characterized cytokinelike transcript, KK34, not identified in our initial analysis of the BAC sequence, is also encoded in this cluster. This gene may represent a duplication of an ancestral IL-5 gene and may encode the functional homolog of IL-5 in the chicken.
...
PMID:Characterization of the first nonmammalian T2 cytokine gene cluster: the cluster contains functional single-copy genes for IL-3, IL-4, IL-13, and GM-CSF, a gene for IL-5 that appears to be a pseudogene, and a gene encoding another cytokinelike transcript, KK34. 1562 57
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