UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transcription factors CREB (cAMP response element binding protein) and ATF (activating transcription factor) recognize DNA containing the consensus sequence TGACGTCA. We compared the neuropeptide somatostatin promoter, which binds CREB and is activated by cAMP, to the adenovirus E2A promoter, which binds ATF but is not activated by cAMP, to determine which specific nucleotides within a CREB/ATF recognition sequence confer cAMP responsiveness. Several mutant somatostatin promoters were generated containing part of all of the E2A ATF binding site. Some of the hybrid CREB/ATF binding sites competed for factor binding to a wild-type somatostatin promoter probe. However, only the wild-type CREB binding site promoter could confer cAMP activation on a linked CAT plasmid. Furthermore, this wild-type CREB binding site could confer cAMP activation on the CAT plasmid only if it was adjacent to a wild-type somatostatin TATA box and cap site. These results suggest that slight deviation from a wild-type CREB recognition sequence might be tolerated by factor(s) binding to cAMP response element-like sequences. However, transcription activation may require a particular CREB recognition sequence, as well as additional promoter elements that bind proteins that interact with CREB.
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PMID:Effects of mutation of the CREB binding site of the somatostatin promoter on cyclic AMP responsiveness in CV-1 cells. 791 77

Cyclic AMP (cAMP) mediates the hormonal stimulation of a number of eukaryotic genes by directing the protein kinase A (PK-A)-dependent phosphorylation of the transcription factor CREB. Somatostatin is one such gene known to be transcriptionally activated by cAMP via CREB. In view of the role somatostatin plays in the regulation of neocortical development, we examined the early expression of CREB mRNA and protein (from E10 to E14) in the rat neocortex by in situ hybridization and immunocytochemistry. mRNA for CREB was detected in all layers of the developing neocortex from E10 to E14. CREB immunoreactivity (CREB-IR) was also observed in most cortical cells by E10. However, the number of CREB-immunoreactive nuclei decreased thereafter, and on E14 there were immunoreactive cells only in the preplate. A moderate amount of somatostatin mRNA was observed on E16 in layer I, which is produced from the preplate. This stage specific expression of the CREB protein in the developing neuroepithelium suggests that by regulating transcription of some peptides including somatostatin, CREB plays a role in cortical development.
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PMID:A developmental study of cyclic AMP-response element binding protein (CREB) by in situ hybridization histochemistry and immunocytochemistry in the rat neocortex. 792 74

The cAMP response element (CRE)-binding transcription factor CREB can mediate induction of gene transcription in response to calcium as well as to cAMP. Since the rat insulin I gene 5'-flanking region contains a CRE with an octamer-like motif (TGACGTCC), CREB binding and cAMP/calcium responsiveness of the insulin CRE were investigated. In an electrophoretic mobility shift assay and in Southwestern blot experiments, bacterially expressed recombinant CREB bound to the insulin CRE as it did to the rat glucagon and rat somatostatin gene CREs. However, in nuclear extracts of the pancreatic islet cell line HIT, protein complexes binding to the insulin CRE did not contain proteins with CREB-like immunoreactivity, although these bound to the glucagon and somatostatin CREs. When reporter fusion genes were transfected into HIT cells, the isolated insulin CRE increased basal activity and mediated transcriptional activation by cAMP. However, cAMP stimulation of transcription through the insulin CRE was weak when compared with the response through the glucagon and somatostatin CREs. Furthermore, the insulin CRE did not confer responsiveness to membrane depolarization and calcium influx, in contrast to the glucagon and somatostatin CREs. These results demonstrate that the functional properties of the rat insulin I gene CRE are different from those of the rat glucagon and somatostatin CREs which may be explained by a distinct pattern of nuclear protein binding and suggest the existence of post-translational mechanisms that decrease the binding of cellular CREB to the insulin CRE.
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PMID:Distinct properties of the cAMP-responsive element of the rat insulin I gene. 792 45

Cyclic AMP (cAMP) regulates a number of eukaryotic genes by mediating the protein kinase A (PKA)-dependent phosphorylation of the CREB transcription factor at Ser-133. In this study, we test the hypothesis that the stoichiometry and kinetics of CREB phosphorylation are determined by the liberation and subsequent translocation of PKA catalytic subunit (C subunit) into the nucleus. Using fluorescence imaging techniques, we observed that PKA was activated in a stimulus-dependent fashion that led to nuclear entry of C subunit over a 30-min period. The degree of CREB phosphorylation, assessed with antiserum specific for CREB phosphorylated at Ser-133, correlated with the amount of PKA liberated. The time course of phosphorylation closely paralleled the nuclear entry of the catalytic subunit. There was a linear relationship between the subsequent induction of the cAMP-responsive somatostatin gene and the degree of CREB phosphorylation, suggesting that each event--kinase activation, CREB phosphorylation, and transcriptional induction--was tightly coupled to the next. In contrast to other PKA-mediated cellular responses which are rapid and quantitative, the slow, incremental regulation of CREB activity by cAMP suggests that multifunctional kinases like PKA may coordinate cellular responses by dictating the kinetics and stoichiometry of phosphorylation for key substrates like CREB.
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PMID:Coupling of hormonal stimulation and transcription via the cyclic AMP-responsive factor CREB is rate limited by nuclear entry of protein kinase A. 833 22

The regulation and function of CREB was examined in B cells to begin to elucidate the role of cAMP-derived signals in B cell activation. CRE-binding activity detected by the electrophoretic mobility shift assay was found to be constitutively expressed in nuclear extracts of primary murine splenic B cells and was unchanged in nuclear extracts obtained from B cells stimulated in a variety of ways. This activity was shown to be specific by competition analysis and to represent CREB or a closely related molecule on the basis of a "supershift" in the mobility of the nucleoprotein complex induced by anti-CREB antiserum. The function of B cell CREB was assessed by transient transfection of the murine B lymphoma cell line, BAL-17, with a CRE-dependent chloramphenicol acetyl-transferase (CAT) construct that contains a portion of the somatostatin promoter. Cross-linking of the surface Ig receptors of transfected BAL-17 B cells produced a threefold induction of CAT activity. Forskolin, which markedly induced CAT expression in PC12 cells transfected with the CRE-dependent construct, failed to stimulate CAT activity in transfected BAL-17 B cells despite an increase in cAMP. However, anti-Ig was found to act in synergy with forskolin to produce enhanced CAT activity. A phosphoprotein of appropriate molecular size for CREB was immunoprecipitated from anti-Ig plus forskolin treated BAL-17 B cells. These results suggest that CREB is present in primary B cells and that CRE-dependent gene expression is regulated by surface Ig either alone or in synergy with cAMP; the latter implies cross-talk between intracellular signaling pathways acting at the level of CREB.
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PMID:Induction of CREB activity via the surface Ig receptor of B cells. 839 39

In this study, we report the binding constants (Kd) of the cAMP-responsive element binding protein (delta-CREB) for various cAMP-response element (CRE) motifs. We utilized purified recombinant delta CREB protein in binding reactions with natural CRE motifs found in the promoter of two neuropeptide hormone genes and with several variant CRE motifs. The Kd of delta CREB for the perfectly palindromic CRE, TGACG-TCA, found within the somatostatin promoter is estimated to be 5.0 x 10(-9) M. The Kd of delta CREB for the variant CRE motif TG_CGTCA found within the enkephalin promoter is calculated to be in the 3 x 10(-8) M. These studies provide an in vitro quantitative assessment of the binding affinity of delta CREB for various CRE motifs.
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PMID:Binding constant determination studies utilizing recombinant delta CREB protein. 847 Nov 66

Several promoter elements with sequence similarity to the prototype TPA-responsive element (TRE) were compared by mobility-shift analyses. Activities within whole cell extracts were identified that bind to the TRE-like elements in the collagenase, the somatostatin, and the c-jun promoters. The corresponding factors appeared to differ in their degree of selectivity for these TRE-like sequences. One protein species bound equally well to all TREs. In addition, a subset of specific activities recognised only the somatostatin and the c-jun-derived element and one DNA-protein complex had exclusive specificity for the TRE present in the c-jun promoter. By antibody 'supershift' assays some of the protein components of the specific complexes were identified as CREB- and ATF-related products. Based on these data we postulate that bZip protein dimers differ in their ability to tolerate variations from the canonical TRE sequence. We propose that TRE-like promoter elements are distinguished by this ability to bind to different subsets of a family of related transcription factors.
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PMID:Different TRE-related elements are distinguished by sets of DNA-binding proteins with overlapping sequence specificity. 847 9

Members of the C/EBP family of basic-leucine zipper (bZip) transcription factors form heterodimers and bind to the CAAT box and other sequence-related enhancer motifs. Using a 32P-labeled protein probe consisting of the bZip domain of C/EBP beta, we isolated a clone encoding C/EBP-related ATF (C/ATF), a bZip protein that heterodimerizes with C/EBP-like proteins but belongs to the CREB/ATF family. C/ATF homodimers do not bind to typical C/EBP DNA sites. Instead they bind to palindromic cAMP response elements such as that of the somatostatin gene. In addition, C/ATF-C/EBP beta heterodimers bind to a subclass of asymmetric cAMP response elements exemplified by those in the phosphoenolpyruvate carboxykinase and proenkephalin genes. Transient transfection studies indicate that interactions between C/ATF and C/EBP beta are the basis for a functional cross talk between these two families of transcription factors that may be important for the integration of hormonal and developmental stimuli that determine the expression of subsets of genes in specific cellular phenotypes.
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PMID:C/ATF, a member of the activating transcription factor family of DNA-binding proteins, dimerizes with CAAT/enhancer-binding proteins and directs their binding to cAMP response elements. 850 17

Gene expression from the human T-cell leukemia virus type I (HTLV-I) long terminal repeat (LTR) is mediated by three cis-acting regulatory elements known as 21-base pair (bp) repeats in addition to the transactivator protein Tax. Each of the 21-bp repeats contain nucleotide sequences which are homologous to a cAMP response element (CRE) which bind members of the ATF/CREB family of transcription factors. In this study, we investigated whether CREB alone or in the presence of Tax was able to induce DNA structural changes when bound to CRE sites in the HTLV-I 21 bp, the cellular somatostatin promoter, or a hybrid CRE construct comprised of both the somatostatin and 21-bp repeat sequences. Circular permutation analysis indicated that CREB was able to induce DNA flexure upon binding to each of these elements. However, phasing analysis, which is a more sensitive method to determine the degree and orientation of directed DNA bending, demonstrated that CREB induced DNA bending of the HTLV-I 21-bp repeat and the hybrid CRE but not the somatostatin CRE. The addition of Tax did not change CREB-mediated bending of the 21-bp repeat or the hybrid CRE although it markedly increased the amount of CREB bound to each of these DNA elements. These results indicate that sequence motifs flanking the CRE in the 21-bp repeat are critical for inducing DNA structural changes and that these changes are likely important in mediating Tax activation of the HTLV-I LTR.
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PMID:cAMP-response element-binding protein induces directed DNA bending of the HTLV-I 21-base pair repeat. 861 46

The regulation of human T-cell leukemia virus type 1 (HTLV-1) gene expression is dependent on three cis-acting elements, known as the 21-bp repeats, in the long terminal repeat. Each of the 21-bp repeats contains a nonpalindromic cyclic AMP response element (CRE) sequence which is capable of binding members of the ATF/CREB family of transcription factors. The HTLV-1 transactivator protein Tax is able to markedly stimulate the in vitro binding of CREB to the CRE sites present in each of the 21-bp repeats but not to CRE sites present in cellular promoters. The ability to Tax to stimulate CREB binding to different CRE sites correlates with the ability of Tax to activate gene expression from these sites. We wished to determine how sequence differences between the somatostatin CRE and the 21-bp repeat were involved in this different response to Tax. Scatchard analysis indicated that CREB bound to the somatostatin CRE with a single class of high-affinity binding while CREB bound to the 21-bp repeats with a biphasic binding pattern, indicating the presence of both low- and high-affinity binding. Tax increased the affinity of CREB binding but not that of another ATF/CREB protein, CREB2, to the 21-bp repeat. However, Tax did not increase affinity of binding of CREB to the somatostatin CRE. To determine the mechanism by which Tax increased dCREB binding affinity, immobilized oligonucleotides corresponding to either the 21-bp repeat or the somatostatin CRE were used to demonstrate that Tax formed a highly specific complex with CREB on the 21-bp repeat but not on the somatostatin CRE. These results indicate that formation of a complex between Tax and CREB results in specific high-affinity binding of this ternary complex to the HTLV-1 21 bp repeats.
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PMID:Complex formation between CREB and Tax enhances the binding affinity of CREB for the human T-cell leukemia virus type 1 21-base-pair repeats. 864 26

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