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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The peptide
somatostatin
(SRIF) exists as two different molecular species. In addition to the most common form, which is a 14-residue peptide, there is also a 14-amino acid amino-terminally extended form of the tetradecapeptide, SRIF-28. Both peptides are synthesized as larger precursors containing paired basic and monobasic amino acids at their processing sites, which, upon cleavage, generate either SRIF-14 or -28, respectively. In mammals a single prepro-SRIF molecule undergoes tissue-specific processing to generate the mature hormone whereas in some species of fish separate genes encode two distinct but homologous precursors prepro-SRIF-I and -II that give rise to SRIF-14 and -28, respectively. To investigate the molecular basis for differential processing of the prohormones we introduce their cDNAs into yeast cells (Saccharomyces cerevisiae). The signal peptides of both precursors were poorly recognized by the yeast endoplasmic reticulum translocation apparatus, consequently only low levels of SRIF peptides were synthesized. To circumvent this problem a chimeric precursor consisting of the alpha-factor signal peptide plus 30 residues of the proregion was fused to pro-SRIF-II. This fusion protein was efficiently transported through the yeast secretory pathway and processed to SRIF-28 exclusively, which is identical to the processing of the native precursor in pancreatic islet D-cells. Most significantly, cleavage of the precursor to SRIF-28 was independent of the Kex 2
endoprotease
since processing occurred efficiently in a kex 2 mutant strain. We conclude that in addition to the Kex 2 protease, yeast possess a distinct prohormone converting enzyme with specificity toward monobasic processing sites.
...
PMID:Heterologous expression of peptide hormone precursors in the yeast Saccharomyces cerevisiae. Evidence for a novel prohormone endoprotease with specificity for monobasic amino acids. 167 5
The enzymatic degradation of the neuropeptide
somatostatin
was investigated in cultivated cells and subcellular fractions from rat brain. Dissociated neurones, astrocytes, and oligodendrocytes obtained from rat cerebral cortex were of more than 85-98% purity as evidenced by immunostaining with antisera to cell specific markers. All of these cell types were able to cleave radiolabeled
somatostatin
to smaller fragments, especially cultivated astrocytes with the highest specific activity. The neuroblastoma cell line N1E-115 did not measureably cleave
somatostatin
. The
somatostatin
-degrading proteases of the cultivated brain cells could be differentiated by their sensitivity to protease inhibitors and by the fragments produced: astrocytes contain a metallo-
endoprotease
sensitive to phenanthroline which cleaves
somatostatin
at the Phe6-Phe7 and Thr10-Phe11 bonds, whereas the
endoprotease
(s) of neurones and oligodendrocytes was insensitive to chelating agents but strongly inhibited by the antibiotic bacitracin. In accordance with this, the bacitracin-sensitive activity was mainly recovered in the synaptic plasma membrane and myelin subcellular fractions obtained by differential centrifugation of rat cerebral cortex homogenate. However, the highest total and specific
somatostatin
-degrading activity was detected in the cytosolic fraction.
...
PMID:Degradation of the neuropeptide somatostatin by cultivated neuronal and glial cells. 168 Aug 64
Somatostatins -14 and -28 are generated from a single (mammals) or two distinct (teleostean fishes) biosynthetic precursors by selective cleavage at either a dibasic (Arg-Lys) or a monobasic (Arg) site. This prohormone obviously constitutes an excellent model to study post-translational proteolytic events both at the cellular and molecular levels. Using a combination of techniques including subcellular fractionation, intracellular transport blockage and electron microscopy immunocytochemical observations, we have demonstrated unequivocally that both monobasic and dibasic proteolytic maturation occur in the Golgi apparatus of either rat brain cortex or hypothalamic cells or for
somatostatin
producing cells of Lophius piscatorius Brockmann organs. An arginine selective
endoprotease
, putative converting enzyme of prosomatostatin into
somatostatin
-28, has been purified and characterized from the rat intestinal mucosa.
...
PMID:[Post-translational proteolytic maturation of prosomatostatin. Cellular and molecular approach]. 168 82
Three putative processing enzymes, each with defined action in a prohormone system, a 'pro-ocytocin-neurophysin convertase' from bovine neurohypophysis secretory granules, a 'Leu-enkephalin Arg6 generating enzyme' from human CSF and the
endoprotease
from the 'S-28 convertase' complex of rat brain cortex, were tested for their ability to hydrolyze peptides deriving from pro-ocytocin, pro-enkephalin B and pro-
somatostatin
, respectively at pairs of basic amino acids. The observations suggest that structural parameters specified by the peptide region around the dibasic moieties govern recognition by the enzyme and define which peptide bond is hydrolyzed.
...
PMID:Role of peptide substrate structure in the selective processing of peptide prohormones at basic amino acid pairs by endoproteases. 289 32
A previous in vivo study implicated the YAP3 and KEX2 genes in the proteolytic maturation of anglerfish prosomatostatins which were heterologously expressed in the yeast Saccharomyces cerevisiae. In the present report, we have determined the cleavage specificity of these enzymes by incubating them in vitro with synthetic peptides mimicking the potential processing sites present in the
somatostatin
precursors and with full length prosomatostatin I. The Yap3 enzyme was prepared from a membrane fraction of a YAP3-overexpressing yeast, and a soluble form of Kex2 obtained from the culture medium of insect cells which had been infected with a recombinant baculovirus expressing the KEX2 gene. The identity of the cleavage products was confirmed by amino acid analysis. Our results show that both endoproteases generate mature SRIF-28 from prosomatostatin-II but that only Yap3 can process the homologous monobasic cleavage site (ie single arginine residue) found in prosomatostatin-I. Both enzymes were also shown to recognize the Arg-Lys doublet found in prosomatostatin-I producing a lysine-extended form of SRIF-14, which indicates that cleavage occurred C-terminal to the arginine residue. In addition, Kex2 also hydrolyzed C-terminal to the Pro-Arg motif to release a tripeptide-extended form of SRIF-14. However, neither
endoprotease
could cleave after the Arg-Lys doublet to release mature SRIF-14. Taken together, our results indicate that the yeast Kex2 and Yap3 endoproteases have distinct, though overlapping, substrate specificities. The results also strongly support the role of Yap3 as a proprotein convertase which perhaps defines a new family of processing enzymes.
...
PMID:Cleavage of prosomatostatins by the yeast Yap3 and Kex2 endoprotease. 781 27
