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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Somatostatin
is one of the numerous peptides described in the Harderian gland of different animals. With the aim of trying to elucidate its physiological role, we investigated whether this peptide is expressed in OFA rat Harderian gland at different ages and seasons and, if so, studied the regulatory proteins involved in the activation of the
somatostatin
gene, and also whether it contains any
somatostatin
receptors. Nursing (4-15-day-old), prepubertal (21-30-day-old), and adult (54-day-old) OFA rats were sacrificed by decapitation throughout the year, and the Harderian glands were excised and immediately frozen in liquid N2. The expression of
somatostatin
and its receptors was investigated using RT-PCR techniques; additionally, the existence of proteins which bind to cAMP responsive elements (CRE) was investigated using a band-shift technique. The
somatostatin
gene was expressed in the Harderian gland of rats aged 4-30 days in autumn and winter but not in spring and summer or in older animals. However, the somatostatin receptor was expressed throughout the year at all the ages studied. In the autumn, nuclear proteins binding to CRE (
CREB
) were present in 8-10-day-old rats but not in younger 4-day-old animals. We conclude that rat Harderian gland cells transcribe the
somatostatin
gene depending on the season and age of the animals, while its receptor is always present at all the ages studied; the
CREB
found produces the same retardation complex as ICER (inducible cAMP early repressor), an isoform of CREM (cAMP responsive element modulator), which in the pineal has been shown to be under adrenergic control. Since
somatostatin
expression is regulated by cAMP mechanisms, it is feasible that the existence of this repressor ICER could explain why
somatostatin
expression disappears in adult animals once maturation is complete.
...
PMID:Expression of the somatostatin gene and receptors in the rat harderian gland. 872 5
The human cytomegalovirus (HCMV) immediate-early region 2 86-kDa protein (IE2 86) is the major transactivator of the promoter for the 2.2-kb class of early RNAs (open reading frame UL 112-113). Previously, we reported that a DNA segment on this promoter between nucleotides (nt) -113 and -59 was critical for activation by IE2 86 in vivo and could be bound by IE2 86 in vitro (R. Schwartz, M. H. Sommer, A. Scully, and D. H. Spector, J. Virol. 68:5613-5622, 1994). With a set of site-specific mutations within nt -84 to -61, we have localized the essential cis-acting sequences to nt -72 to -61, which contain an ATF/
CREB
-binding site. The IE2 86-binding site between nt -113 and -85 is not essential for activation of the promoter by IE2 86 in transient-expression assays, but its presence can enhance the level of activation mediated through the sequences located between nt -84 and -59. Electrophoretic mobility shift assays with a segment containing nt -84 to -59 and nuclear extracts from human cells permissive for the HCMV infection revealed a complex band pattern. However, by supershift analysis with specific antibodies, we were able to identify
CREB
as the major ATF/
CREB
family member in the protein-DNA complexes. Further evidence that
CREB
is a target for IE2 86-mediated induction, is provided by the finding that IE2 86 activates the
somatostatin
promoter to high levels. Although the binding of IE2 86 to nonphosphorylated full-length
CREB
or deltaCREB is minimal, IE2 86 does form complexes with p300 and the CREB-binding protein (CBP), which in turn bind to
CREB
and can serve as adaptor proteins for
CREB
function. In addition, the in vivo functional relevance of the interaction between IE2 86 and CBP is indicated by the ability of IE2 86 to enhance transcriptional activation mediated by a GAL4-CBP fusion protein brought to a promoter by GAL4-binding sites.
...
PMID:CREB and CREB-binding proteins play an important role in the IE2 86-kilodalton protein-mediated transactivation of the human cytomegalovirus 2.2-kilobase RNA promoter. 879 39
The human T-cell leukemia virus type I (HTLV-I)
transactivator protein
Tax is critical for the activation of viral gene expression and the transformation of T-lymphocytes. Tax activation of HTLV-I gene expression is mediated by three highly homologous regulatory elements known as 21 bp repeats which bind the transcription factor
CREB
. Questions remain about the mechanism by which Tax can stimulate
CREB
binding, whether Tax alters
CREB
binding affinity, what specific sequences in the HTLV-I 21 bp repeat mediate ternary complex formation, and if the ternary complex comprised of Tax and
CREB
can recruit coactivators such as CBP. To address these points, we used immobilized templates containing either the HTLV-I 21 bp repeats or the
somatostatin
CRE to assay Tax association with ATF/
CREB
family members. Tax formed a stable ternary complex on each of the 21 bp repeats with the transcription factor
CREB
but not related ATF/
CREB
proteins. In contrast, Tax did not form a similar complex on the
CREB
binding site in the
somatostatin
promoter. The formation of this complex was dependent on 3' sequences flanking the
CREB
binding site within each of the 21 bp repeats and resulted in marked increases in
CREB
association and binding affinity. Tax increased the binding of phosphorylated
CREB
to the 21 bp repeat resulting in increased association of the coactivator CBP. However, Tax did not form a complex on the
somatostatin
CRE in the presence of either phosphorylated or non-phosphorylated
CREB
and it did not stimulate CBP association to this element. These studies extend previous work and demonstrate how specific DNA sequences flanking the
CREB
binding site regulate the formation of a stable ternary complex that is able to more efficiently recruit the coactivator CBP.
...
PMID:HTLV-1 21 bp repeat sequences facilitate stable association between Tax and CREB to increase CREB binding affinity. 895 Feb 64
The cAMP response element binding protein
CREB
activates the transcription of genes in response to phosphorylation by cAMP-dependent protein kinase A (PKA) and other protein kinases. Phosphorylated
CREB
activates transcription by recruiting transcriptional co-activators such as the CREB binding protein. Here, we describe experiments that analyze the effects of phosphorylation on the DNA binding affinity of
CREB
and the structural characteristics of the
CREB
/DNA complex in solution. Analysis of deletion mutants of
CREB
indicate that amino acid sequences within the transactivation domain promote high-affinity binding of
CREB
to fluorescently labeled oligonucleotides containing cAMP response elements. In vitro experiments indicate that phosphorylation is processive between PKA as the initial kinase and glycogen synthase kinase-3 (GSK-3) but not casein kinase II as the secondary kinase. Fluorescent electrophoretic mobility shift assays show that phosphorylation by PKA results in a 3-5-fold increase in the binding affinity of
CREB
to both the symmetrical
somatostatin
CRE (SMS-CRE) and the asymmetric
somatostatin
upstream element (SMS-UE). Processive phosphorylation of
CREB
by GSK-3 attenuates the enhanced DNA binding in response to PKA thus acts as an inhibitor of PKA-induced binding. Ferguson plot analyses demonstrate that phosphorylation of
CREB
by PKA and GSK-3 result in an increase in the spherical size and the net positive surface charge of the
CREB
/DNA complex. Moreover, these analyses uncovered the unexpected finding that
CREB
associates as a tetramer both in the presence and absence of DNA. These findings suggest a model by which phosphorylation of
CREB
alters the secondary structure and charge characteristics of the
CREB
/DNA complex resulting in an alteration in binding affinity.
...
PMID:Phosphorylation of the cAMP response element binding protein CREB by cAMP-dependent protein kinase A and glycogen synthase kinase-3 alters DNA-binding affinity, conformation, and increases net charge. 952 99
Recent advances in the molecular biology has served to unveil the underlying genetic and epigenetic alterations in pituitary adenomas. Three nuclear transcriptional factors, AP-1,
CREB
, and Pit-1, which are targets of protein kinase C and A, appear to play critical roles in both neoplastic growth and hormone secretion in hormone-producing adenomas. The alteration of G proteins such as Gs and Gi2 is a direct cause of the activation of such transcriptional factors. Autocrine growth factor/cytokine loops also contribute to the augmented signal transductions. Bromocriptine and
somatostatin
analogs have effects to lower cellular cAMP level through inhibitory G proteins, although the mechanism leading to cellular apoptosis is unknown. On the other hand, most non-functioning adenomas may not have PKC- or PKA-mediated oncogenic mechanisms. Although the loss of Rb and p27Kip1 genes has been demonstrated as a cause of murine pituitary adenomas, the role of tumor suppressor genes for human pituitary adenomas remains elusive. However, potential candidates for the suppressor genes are now emerging. The recently cloned multiple endocrine neoplasia type I gene is one example. Alterations of c-myc/bcl-2, and ras, although rare, appear to be an important cause of the process by which adenoma cells acquire aggressive phenotypes. Further studies on the links between abnormal signal transductions and aberrant tumor suppressor genes will be needed to clarify the whole picture of pituitary oncogenesis.
...
PMID:Molecular basis of pituitary oncogenesis. 1072 13
The human T cell leukemia virus type I (HTLV-I) Tax protein activates transcription from the viral long terminal repeat and select cellular promoters by interacting with cellular DNA-binding proteins. The HTLV-I promoter contains three copies of a Tax-responsive element (TRE-1), each of which possesses a core cAMP response element (CRE). The cAMP response element-binding protein,
CREB
, binds TRE-1 and mediates Tax association with, and transactivation of, the viral promoter. These activities depend on DNA sequences that flank the core CRE. Although CREs are found in a variety of cellular promoters, cellular CREs vary in sequence from TRE-1, especially in the flanking regions, and are generally not Tax responsive. The molecular basis for differential Tax responsiveness of viral and cellular CREs has not been determined. Here we demonstrate that the conformation of
CREB
is influenced by the nucleotide sequence of its DNA-binding element.
CREB
showed altered sensitivity to V8, chymotrypsin, and trypsin proteases when bound to the HTLV-I TRE-1 element as compared to the rat
somatostatin
CRE element. The phosphorylation state of
CREB
did not influence its protease sensitivity on either element. Sequences flanking the core CRE-binding site in each element were found to specify protease sensitivity. Since the TRE-1-flanking sequences also modulate Tax association with
CREB
, and Tax transactivation of
CREB
-dependent LTR transcription, these results suggest that
CREB
conformation may determine the ability of Tax to bind
CREB
.
...
PMID:Sequences flanking the cAMP responsive core of the HTLV-I tax response elements influence CREB protease sensitivity. 1079 92
The subcommissural organ (SCO) of mammals is innervated by several neuropeptide and neurotransmitter systems. So far, substance P (SP), oxytocin (OXT), vasopressin (VP),
somatostatin
(
SOM
), thyrotropin-releasing factor (TRF), and angiotensin II (ANGII) were identified in neuropeptidergic input systems, and serotonin (5HT), gamma-amino butyric acid (GABA), noradrenaline (NA), dopamine (DA), and acetylcholine (Ach) were neurotransmitters observed in systems afferent to the SCO. In the present report, based on literature data and our own investigations, we describe the occurrence of peptide and transmitter receptors in the SCO by means of autoradiographic and biochemical studies. Further, we summarize aspects of the signal transduction cascades possibly linked to different receptor types of the SCO; these studies included the use of calcium imaging (FURA-2 technique), ELISA technique, and immunocytochemistry. Receptors were identified for adenosine, angiotensin II, imidazoline, glucocorticoids, mineralocorticoids, NA, and embryonic brain kinase. The studies on intracellular signal-transduction indicated receptors for tachykinins and for ATP. In SCO cells, Ca(++) and c-AMP were identified to act as second messengers. As important transcription factor, cAMP-/Ca(++)-response element binding protein (
CREB
) was observed. Ach and NA did not show a significant effect on the subcommissural signal transduction.
...
PMID:Presence and functional significance of neuropeptide and neurotransmitter receptors in subcommissural organ cells. 1124 63
The cyclic AMP (cAMP)-responsive factor
CREB
induces target gene expression via constitutive (Q2) and inducible (KID, for kinase-inducible domain) activation domains that function synergistically in response to cellular signals. KID stimulates transcription via a phospho (Ser133)-dependent interaction with the coactivator paralogs CREB binding protein and p300, whereas Q2 recruits the TFIID complex via a direct association with hTAF(II)130. Here we investigate the mechanism underlying cooperativity between the Q2 domain and KID in
CREB
by in vitro transcription assay with naked DNA and chromatin templates containing the cAMP-responsive
somatostatin
promoter. The Q2 domain was highly active on a naked DNA template, and Ser133 phosphorylation had no additional effect on transcriptional initiation in crude extracts. Q2 activity was repressed on a chromatin template, however, and this repression was relieved by the phospho (Ser133) KID-dependent recruitment of p300 histone acetyltransferase activity to the promoter. In chromatin immunoprecipitation assays of NIH 3T3 cells, cAMP-dependent recruitment of p300 to the
somatostatin
promoter stimulated acetylation of histone H4. Correspondingly, overexpression of hTAFII130 potentiated
CREB
activity in cells exposed to cAMP, but had no effect on reporter gene expression in unstimulated cells. We propose that cooperativity between the KID and Q2 domains proceeds via a chromatin-dependent mechanism in which recruitment of p300 facilitates subsequent interaction of
CREB
with TFIID.
...
PMID:Chromatin-dependent cooperativity between constitutive and inducible activation domains in CREB. 1168 82
Medullary thyroid carcinoma (MTC) is a rare and aggressive tumor and so far medical therapy has provided inconclusive results. In the human MTC cell line TT, expressing all
somatostatin
(
SST
) receptor subtypes, cell proliferation decreases with
SST
and
SST
receptor subtype 2 (sst(2)), but not sst(5), selective agonist treatment, whereas calcitonin (CT) expression and secretion are reduced by
SST
, but not by sst(2) and sst(5) agonists. The effectiveness of two new
SST
analogs, BIM-23926 and BIM-23745, selectively interacting with sst(1), was investigated in the TT cell line. DNA synthesis is significantly reduced by BIM-23926 (27-40% at 10(-10)-10(-6)M) and BIM-23745 (32-90% at 10(-8)-10(-6)M). Viable cell number is also significantly reduced by both BIM-23926 (40% at 10(-12)-10(-6)M) and BIM-23745 ( approximately 40% at 10(-10)-10(-6)M). Treatment with sst(1)-selective agonists significantly reduces CT secretion and gene expression, with a reduction of
CREB
phosphorylation. These findings suggest that potent sst(1)-selective agonists could have a therapeutic role in MTC.
...
PMID:Somatostatin receptor subtype 1-selective activation reduces cell growth and calcitonin secretion in a human medullary thyroid carcinoma cell line. 1235 27
In recent years the demonstration that human pituitary adenomas are monoclonal in origin has provided further evidence that pituitary neoplasia arise from the replication of a single mutated cell in which growth advantage results from either activation of proto-oncogenes or inactivation of tumor suppressor genes. While common oncogenes, such as Ras, are only exceptionally involved, the only mutations identified in a significant proportion of pituitary tumors, and particular in GH-secreting adenomas, occur in the Gsalpha gene (GNAS1) and cause constitutive activation of the cAMP pathway (gsp oncogene). Moreover, pituitary tumors overexpress hypothalamic releasing hormones, growth factors, and their receptors as well as cyclins involved in cell cycle progression. As far as the role of tumor suppressor genes in pituitary tumorigenesis is concerned, reduced expression of these genes seems to frequently occur in pituitary tumors as a consequence of abnormal methylation processes. Although the only mutational change so far identified in pituitary tumors is the gsp oncogene, this oncogene is not associated with a clear phenotype in patients bearing positive tumors. Mechanisms able to counteract the cAMP pathway, such as high sensitivity to
somatostatin
, and induction of genes with opposite actions, such as phosphodiesterases,
CREB
end ICER, or instability of mutant Gsalpha, have been proposed to account for the lack of genotype/phenotype relationships.
...
PMID:Genetics of pituitary tumors: Focus on G-protein mutations. 1453 May 8
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