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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression of the genes encoding the hormones glucagon, insulin,
somatostatin
, and pancreatic polypeptide in the endocrine islets of the pancreas is regulated in a cell-specific manner, defining four distinct cellular phenotypes (A-, B-, D-, and F-cells, respectively). Binding of nuclear proteins to cognate DNA sequences within cis-acting regulatory elements mediates the transcriptional events that result in the cell-specific activation or repression of gene expression. In a parallel study, we describe the functional properties of the SMS-UE, a pancreatic islet D-cell specific enhancer element that regulates the expression of the
somatostatin
gene and contains two interdependent domains, A and B. In the studies described herein, we have characterized the nuclear proteins that recognize the SMS-UE. Domain A of the SMS-UE is a DNA enhancer sequence that is identical to that bound by the ubiquitously distributed CCAAT box-binding protein alpha-CBF, a transcription factor that regulates the expression of the human chorionic gonadotrophin alpha-subunit gene. The B-domain, on the other hand, binds an islet cell-specific protein with characteristics similar to those of Isl-1, a transcriptional activator protein that binds to the E2 enhancer of the rat insulin-1 gene. In addition, the SMS-UE binds transcription factor CREB but not
CREM
, the close homolog of CREB, on a site adjacent to, or overlapping, the 3' end of domain B. We show that the carboxyl-terminal bZIP domain of CREB binds to the cAMP response element of the
somatostatin
gene but is not sufficient for binding to the SMS-UE, and we present evidence suggesting that CREB.SMS-UE binding requires stabilization by a region of the protein located within the transactivation domain.
...
PMID:Somatostatin gene upstream enhancer element activated by a protein complex consisting of CREB, Isl-1-like, and alpha-CBF-like transcription factors. 135 92
Two cis-acting promoter elements (-108 to -100 and -49 to -33) of the mouse alpha A-crystallin gene, which is highly expressed in the ocular lens, were studied. Here we show that DE1 (-108 to -100; 5'TGACGGTG3'), which resembles the consensus cyclic AMP (cAMP)-responsive element sequence (CRE; 5'TGACGT[A/C][A/G]3'), behaves like a functional CRE site. Transfection experiments and electrophoretic mobility shift assays (EMSAs) using site-specific mutations correlated a loss of function with deviations from the CRE consensus sequence. Results of EMSAs in the presence of antisera against CREB, delta CREB, and
CREM
were consistent with the binding of CREB-like proteins to the DE1 sequence. Stimulation of alpha A-crystallin promoter activity via 8-bromo-cAMP, forskolin, or human T-cell leukemia virus type I Tax1 in transfections and reduction of activity of this site in cell-free transcription tests by competition with the
somatostatin
CRE supported the idea that DE1 is a functional CRE. Finally, Pax-6, a member of the paired-box family of transcription factors, activated the mouse alpha A-crystallin promoter in cotransfected COP-8 fibroblasts and bound to the -59 to -29 promoter sequence in EMSAs. These data provide evidence for a synergistic role of Pax-6 and CREB-like proteins for high expression of the mouse alpha A-crystallin gene in the lens.
...
PMID:Transcriptional regulation of the mouse alpha A-crystallin gene: activation dependent on a cyclic AMP-responsive element (DE1/CRE) and a Pax-6-binding site. 782 34
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 cAMP responsive element-binding protein (CREB) is central to second messenger regulated transcription. To elucidate the structural mechanisms of DNA binding and selective dimerization of CREB, we determined to 3.0 A resolution, the structure of the CREB bZIP (residues 283-341) bound to a 21-base pair deoxynucleotide that encompasses the canonical 8-base pair
somatostatin
cAMP response element (SSCRE). The CREB dimer is stabilized in part by ionic interactions from Arg(314) to Glu(319') and Glu(328) to Lys(333') as well as a hydrogen bond network that links the carboxamide side chains of Gln(322')-Asn(321)-Asn(321')-Gln(322). Critical to family selective dimerization are intersubunit hydrogen bonds between basic region residue Tyr(307) and leucine zipper residue Glu(312), which are conserved in all CREB/
CREM
/ATF-1 family members. Strikingly, the structure reveals a hexahydrated Mg(2+) ion bound in the cavity between the basic region and SSCRE that makes a water-mediated DNA contact. DNA binding studies demonstrate that Mg(2+) ions enhance CREB bZIP:SSCRE binding by more than 25-fold and suggest a possible physiological role for this ion in
somatostatin
cAMP response element and potentially other CRE-mediated gene expression.
...
PMID:The structure of a CREB bZIP.somatostatin CRE complex reveals the basis for selective dimerization and divalent cation-enhanced DNA binding. 1095 92
