Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that somatostatin-14 (S-14) is rapidly metabolized in the liver through the action of aminopeptidases and endopeptidases, resulting in separate cleavages at the N-terminus and the cyclized (ring) portion of the molecule. In the present study we have characterized the hepatic metabolism of somatostatin-28 (S-28) and compared it with that of S-14 to determine whether S-28 is degraded by a process similar to that for S-14, and additionally, whether the hepatic metabolism of S-28 results in significant conversion to S-14. Isolated rat livers were perfused with synthetic S-28, somatostatin-25[(S-25), an N-terminal metabolite of S-28], C- and N-terminally radioiodinated analogs of S-28, S-14, and des-Ala1-S-14[(S-13), an N-terminal metabolite of S-14]. The metabolic products were characterized by separate N-terminally directed S-14 and S-28 RIAs, a common ring-directed RIA for S-14, S-28, S-13, and S-25, immunoprecipitation, gel chromatography, and HPLC. Hepatic extractions of S-28 and S-25, monitored as ring-directed immunoreactivity, were equivalent, but both occurred 4 times more slowly than that of S-14 or S-13. By contrast, the N-terminal metabolism of S-14 and S-28 monitored by specific N-terminal RIAs occurred at similar rates (hepatic extraction of 54% and 44%, respectively). Both S-14 and S-28 were degraded significantly more rapidly at the N-terminus than at the ring segment. Immunochemical characterization of the radioactive metabolites of N- and C-terminally radioiodinated S-28 analogs confirmed the more rapid N-terminal cleavage of S-28 compared with its ring breakdown. Gel chromatography of S-28 perfusates followed by RIA of the column fractions for N-terminal and ring-reactive metabolites, showed a time-dependent conversion of S-28 to a peak coeluting with S-14 (27% conversion by 60 min). That S-14 was a significant metabolite of S-28 was further confirmed by HPLC analysis of the hepatic perfusate. The main hepatic metabolite of S-28 coeluted with S-28 on Sephadex columns but showed reduced N-terminal reactivity compared to intact S-28. This product thus appeared to be a N-terminally modified form of S-28 as also suggested by HPLC analysis where it coeluted with synthetic S-25. These data have demonstrated that the hepatic metabolism of S-28 occurs via three separate processes, two of which are similar to those for S-14. These include 1) endopeptidase cleavage through the cyclized (ring) segment; 2) N-terminal aminopeptidase cleavage to yield metabolites such as S-25; and 3) tryptic-like cleavage of the Arg-Lys region of S-28 to generate S-14.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Hepatic metabolism of somatostatin-14 and somatostatin-28: immunochemical characterization of the metabolic fragments and comparison of cleavage sites. 286 Oct 82

Melanin concentrating hormone (MCH) is a heptadecapeptide isolated from chum salmon (Oncorhynchus keta) pituitaries. The peptide has been isolated from whole brain extract at a low yield of 1.2 micrograms/1300 brains. MCH activity in the hypothalamus was characterised by in vitro scale bioassay and radioimmunoassay. Specificity of these assay systems was examined with neurotransmitters such as epinephrine, norepinephrine, and dopamine, hypothalamic hormones such as somatostatin, isotocin, Arg-vasotocin, oxytocin, and Arg-vasopressin, and salmon prolactin and its chymotryptic peptide or salmon PRL176-187. Among them only salmon PRL176-187 exhibited weak activities in both assays. The neurotransmitters were 10(4) to 10(5) times less potent than MCH in the bioassay. MCH concentrations in a pituitary and a hypothalamus were estimated as 5300 +/- 750 ng (ca. 106 micrograms/g) and 48 +/- 9.5 ng (ca. 1.6 micrograms/g), respectively, by radioimmunoassay. Lysyl endopeptidase digestion of the hypothalamic extract resulted in a significant increase of biological activity as well as of immunoreactivity. Gel filtration of the hypothalamic extract and subsequent enzymatic digestion revealed that the fractions at higher molecular weight were contributory to the increase in the activities.
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PMID:Characterization of melanin concentrating hormone in teleost hypothalamus. 288 42

Two closely related Cl(-)-activated arginyl aminopeptidases (I and II) were purified from a soluble extract of postmortem human cerebral cortex by anion-exchange chromatography and preparative gel electrophoresis. The electrophoretic mobility of II was approximately 80% that of I; the molecular mass of both enzymes was approximately 70 kilodaltons (kDa) (gel filtration). The aminopeptidase action of I and II on aminoacyl-7-amido-4-methylcoumarin (AMC) substrates was restricted to the Arg and Lys derivatives. Both enzymes had significant endopeptidase activity, hydrolysing several biologically active peptides including neurotensin, bradykinin, angiotensin-I, substance P, luliberin, and somatostatin at internal bonds. Other peptides [Leu-enkephalin, proctolin, thyroliberin, adrenocorticotropin18-39 (ACTH18-39), ACTH11-24, and dynorphin (1-13)] were not appreciably hydrolysed. The amino- and endopeptidase activities had pH optima at 6.5 and 7, respectively, and were both inhibited by metal ion chelators and sulphydryl group blocking agents. The aminopeptidase activity was stimulated 20-fold by Cl- ions, whereas the endopeptidase activity was unaffected by the latter. Km values for neurotensin degradation were 20 microM (I) and 37 microM (II) and for Arg-AMC hydrolysis they were 167 microM (I) and 125 microM (II). The endopeptidase activity was not inhibited by the aminopeptidase inhibitors arphamenine or bestatin (IC50 = 9 nM and 0.1 microM, respectively, with Arg-AMC substrate).
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PMID:Purification and characterization of two soluble Cl(-)-activated arginyl aminopeptidases from human brain and their endopeptidase action on neuropeptides. 265 16

Clearance of cyclic somatostatin (SRIF) from a plasma-free recirculating medium containing human erythrocytes and a bovine albumin fraction was measured with site-specific N-terminal (sheep B) and central core-directed (R101) radioimmunoassays during perfusion of the isolated rat liver (3-4 g). With the N-terminal radioimmunoassay (RIA), the t 1/2, hepatic clearance, and extraction of somatostatinlike immunoreactivity (SLI) were 20.9 +/- 2.0 (SE) min, 2.82 +/- 0.27 ml/min, and 35.2 +/- 3.4%. Corresponding values for the centrally directed assay were 51.0 +/- 6.3 min, 1.16 +/- 0.14 ml/min, and 14.4 +/- 1.8%. Clearances of immunoprecipitable 125I-Tyr-SRIF and [125I-Tyr11]SRIF were 6.56 and 1.06 ml/min, respectively, and were not saturable by 1 microM Tyr-SRIF and SRIF, respectively. SRIF (1.26 +/- 0.09 nM) and SRIF-28 (1.34 +/- 0.14 nM) clearances determined by R101 RIA were similar. After SRIF-28 perfusion, high-performance liquid chromatographic analysis of SLI showed 86% to be retained with the SRIF-28 peak and 14% with the SRIF peak, suggesting no major conversion of SRIF-28 to SRIF. Des-(Ala1,Gly2)-N3-Ac-SRIF and dihydrosomatostatin were cleared more rapidly than SRIF. Clearance of SLI by the perfusate without the liver was 12-43% of liver clearance, depending on the peptide examined. These results support the hypothesis that aminopeptidase and endopeptidase activities are involved in SRIF clearance by the intact liver. The activities appear to function independently. The intrachain disulfide bond of SRIF may confer relative stability during its hepatic metabolism.
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PMID:Somatostatin metabolism: differences in clearance of N-terminal and central portions of molecule during perfusion of rat liver. 614 53

Anglerfish (Lophius piscatorius) Brockmann organs contain a form of somatostatin-14, identical to the hypothalamic tetradecapeptide, and two distinct forms of somatostatin-28, which can be separated by reversed-phase high-pressure liquid chromatography (HPLC). Analysis of the NH2-terminal amino acid sequence and comparison of the ability to incorporate 125I indicate that one of these forms corresponds to an octacosapeptide including in its sequence the (Tyr-7, Gly-10) derivative of somatostatin-14 (somatostatin II). Exposure of this somatostatin-28 species to an endopeptidase activity from the rat brain cortex generates a peptide immunologically related to somatostatin and undistinguishable from synthetic (Tyr-7, Gly-10) somatostatin-14 II by HPLC. This somatostatin-28 II exhibits a potent inhibitory effect on growth hormone release by rat anterior pituitary cells, comparable to the other somatostatin-28 form. Since (Tyr-7, Gly-10) somatostatin-14 II cannot be detected in anglerfish pancreatic islets, these results indicate that somatostatin-28 II represents the terminal active product of prosomatostatin II processing, whose structure was predicted from the cDNA nucleotide sequence corresponding to the second mRNA cloned from anglerfish Brockmann organs [Hobart, P., Crawford, R., Shen, L. P., Pictet, R. & Rutter, W. J. (1980) Nature (London) 288, 137-141].
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PMID:Characterization of a somatostatin-28 containing the (Tyr-7, Gly-10) derivative of somatostatin-14: a terminal active product of prosomatostatin II processing in anglerfish pancreatic islets. 615 Apr 81

A porcine kidney microsomal metalloendopeptidase has been enriched 3900-fold. Gel filtration on a calibrated Toyo-Soda G-3000 SW column indicated an appropriate molecular weight for the endopeptidase of 88,000 +/- 2000. The purified enzyme is inhibited by a number of synthetic inhibitors of thermolysin. The endopeptidase hydrolyzes the succinyl (Suc)-containing fluorogenic peptide substrate Suc-Ala-Ala-Phe-(7-amino-4-methylcoumarin) at the Ala-Phe position with a Km of 2.9 X 10(-4) M. The endopeptidase also hydrolyzes a variety of peptides including corticotropin, substance P, angiotensin I and II, neurotensin, somatostatin, bradykinin, and the renin tetradecapeptide substrate. The endopeptidase hydrolyzes both [Leu]- and [Met]enkephalin at the Gly-Phe bond.
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PMID:Purification of a membrane-bound metalloendopeptidase from porcine kidney that degrades peptide hormones. 703 58

We have characterized and compared the substrate specificity of affinity-purified recombinant rat testes endopeptidase EC 3.4.24.15 (EP 24.15) with that reported for the isolated brain enzyme. Of the peptides tested, only bradykinin, dynorphin A1-8, and neurotensin were efficiently cleaved by the recombinant enzyme (kcat/Km = 3.0, 2.8 and 0.5 x 10(5) M-1sec-1, respectively); other peptides considered substrates of EP 24.15 (gonadotropin-releasing hormone, substance P, somatostatin and angiotensin) were not metabolized. The enzyme was inhibited by metal ion chelators and thiol-reactive agents, as well as a specific EP 24.15 inhibitor (N-[1(R,S)-carboxy-3-phenylpropyl]-Ala-Ala-Tyr-p-aminobenzoate), thus confirming the enzyme as a thiol-dependent metalloendopeptidase. The observed discrepancies in substrate specificity of the recombinant testicular and the isolated brain enzymes may result from tissue-specific forms and/or post-translational modifications of EP 24.15.
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PMID:Substrate specificity differences between recombinant rat testes endopeptidase EC 3.4.24.15 and the native brain enzyme. 773 70

Sixty-four kinds of cell lines were examined as to their ability to degrade glucagon using conditioned-media obtained from their protein-free cultures. Two human tumor cell lines were shown to produce this activity, and the cell line, HPC-YO, established from a human pancreatic carcinoma was shown to produce the highest level of activity. The glucagon-degrading enzyme (GDE) was purified from HPC-YO conditioned-medium by a combination of ion-exchange, gel filtration, and hydroxylapatite column chromatographies. The purified GDE also degraded vasoactive intestinal polypeptide (VIP) and secretin, however, it did not cleave EGF, gastrin, insulin, somatostatin, substance P, neurotensin, or growth hormone. The molecular weight of GDE is 83,000, as determined on SDS-polyacrylamide gel electrophoresis. The N-terminal amino acid sequence of GDE was blocked, and the five partial amino acid sequences obtained on lysyl-endopeptidase digestion were determined to be N-L-T-E-E-Y-D-V-S-D-G-E-I-E-L-L-Y-E-K, V-E-T-Y-Y-D-L-L-F-E-K, L-Y-W-F-L-D-E-A-K, S-N-S-T-S-Y-V-K, and Y-Y-A-S-T-S-Y-D-D-T-Y-K. The same or homologous amino acid sequences have not been found in known proteins, demonstrating that GDE is a novel peptidase that degrades the secretin family: glucagon, VIP, and secretin.
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PMID:A novel proteinase, glucagon-degrading enzyme, secreted by a human pancreatic cancer cell line, HPC-YO. 777 1

The membrane metalloenzyme endopeptidase-24.11 has been localized by immunocytochemistry in the porcine hippocampus in the stratum oriens and stratum radiatum. Endopeptidase-24.11 was found to be approximately 10-fold more abundant in a striatal than a hippocampal membrane preparation. Both somatostatin-28 and somatostatin-14 were metabolized by endopeptidase-24.11, but the kinetics of hydrolysis markedly favoured the smaller form of the neuropeptide. After phase separation with Triton X-114 of striatal and hippocampal membrane preparations, and by using selective inhibitors, the major (> 80%) somatostatin-metabolizing activity was found to partition into the detergent-rich phase and was attributable predominantly to endopeptidase-24.11. The residual activity observed in the presence of the selective endopeptidase-24.11 inhibitor phosphoramidon was blocked by Pro-Ile or N-[1-(RS)-carboxy-3-phenylpropyl]-Ala-Ala-Phe-p-aminobenzoate, inhibitors of endopeptidase-24.16 and endopeptidase-24.15, respectively. However, Pro-Ile, at comparable concentrations, was shown to inhibit endopeptidase-24.11, challenging the validity of its use as a selective inhibitor of endopeptidase-24.16. The immunocytochemical and Triton X-114 phase-separation data implicate endopeptidase-24.11, rather than endopeptidase-24.16 or endopeptidase-24.15, as the major physiological somatostatin-degrading neuropeptidase in the striatum and hippocampus.
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PMID:Endopeptidase-24.11 is the integral membrane peptidase initiating degradation of somatostatin in the hippocampus. 789 Nov 11

Several neuropeptides, including neurotensin, somatostatin, bradykinin, angiotensin II, substance P, and luteinizing hormone-releasing hormone but not vasopressin and oxytocin, were actively metabolized through proteolytic degradation by cultivated astrocytes obtained from rat cerebral cortex. Because phenanthroline was an effective degradation inhibitor, metalloproteases were responsible for neuropeptide fragmentation. Neurotensin was cleaved by astrocytes at the Pro10-Tyr11 and Arg8-Arg9 bonds, whereas somatostatin was cleaved at the Phe6-Phe7 and Thr10-Phe11 bonds. These cleavage sites have been found previously with endopeptidases 24.16 and 24.15 purified from rat brain. Addition of specific inhibitors of these proteases, the dipeptide Pro-Ile and N-[1-(RS)-carboxy-3-phenylpropyl]-Ala-Ala-Phe-4-aminobenzoate, significantly reduced the generation of the above neuropeptide fragments by astrocytes. The presence of endopeptidases 24.16 and 24.15 in homogenates of astrocytes could also be demonstrated by chromatographic separations of supernatant solubilized cell preparations. Proteolytic activity for neurotensin eluted after both gel and hydroxyapatite chromatography at the same positions as found for purified endopeptidase 24.16 or 24.15. In incubation experiments or in chromatographic separations no phosphoramidon-sensitive endopeptidase 24.11 (enkephalinase) or captopril-sensitive peptidyl dipeptidase A (angiotensin-converting enzyme) could be detected in cultivated astrocytes. Because astrocytes embrace the neuronal synapses where neuropeptides are released, we presume that the endopeptidases 24.16 and 24.15 on astrocytes are strategically located to contribute significantly to the inactivation of neurotensin, somatostatin, and other neuropeptides in the brain.
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PMID:Endopeptidases 24.16 and 24.15 are responsible for the degradation of somatostatin, neurotensin, and other neuropeptides by cultivated rat cortical astrocytes. 790 52


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