EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of reflex splanchnic nerve stimulation on proenkephalin A biosynthesis was investigated in the rat adrenal medulla. Tissue levels of native [Met5]enkephalin-like immunoreactivity (IR) (measured by direct RIA of tissue extracts), cryptic [Met5]enkephalin-like IR (calculated as the increase in [Met5]enkephalin-like IR detected in tissue extracts after sequential digestion with trypsin and carboxypeptidase B), and proenkephalin A mRNA were determined in adrenal medulla from rats sacrificed at various times after a period of insulin-induced hypoglycemia. Two hours of insulin hypoglycemia, which produced intense reflex stimulation of the splanchnic nerves as evidenced by a 55% decrease in the adrenal medulla catecholamine levels, resulted in a 3-fold increase in proenkephalin A mRNA levels in this tissue. The proenkephalin A mRNA levels reached a maximum 15-fold increase over control values 24 hr after this period of hypoglycemic stress and then gradually declined with an approximate half-life of 4 days. Native and cryptic [Met5]enkephalin-like IR had increased 9-fold and 12-fold, respectively, 24 hr after this period of hypoglycemia, and both demonstrated maximum increases of 130-fold and 50-fold, respectively, after 96 hr. Combined pretreatment (i.p. administration) with the ganglionic and muscarinic blocking agents chlorisondamine (5 mg/kg of body weight) and atropine (1 mg/kg) blocked the increase in levels of proenkephalin A mRNA seen in the rat adrenal medulla following insulin hypoglycemia. These data indicate that reflex splanchnic nerve discharge stimulates proenkephalin biosynthesis, probably at the level of gene expression.
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PMID:Reflex splanchnic nerve stimulation increases levels of proenkephalin A mRNA and proenkephalin A-related peptides in the rat adrenal medulla. 353 20

Recent studies have supported the suggestion that proenkephalin is the same in both adrenal medulla and brain. However, although previous investigations have characterized enkephalin-containing adrenal intermediates derived from proenkephalin, as yet no such intermediates have been isolated from the brain. This has led to the belief that the processing of proenkephalin in the brain is extremely rapid and enkephalin-containing intermediates do not accumulate. In this investigation Sephacryl-300 gel filtration chromatography of guinea pig striata, extracted in 8 M urea, demonstrated several peaks of both bioactive and immunoreactive enkephalin-like peptides after enzymatic digest (trypsin followed by carboxypeptidase B). Comparable profiles were obtained using rat and bovine striatal tissue. In guinea pig the major species emerging from gel filtration, eluting with an apparent molecular weight of 29,000, represented approximately 9% of the total (methionine) enkephalin immunoreactivity. It had an apparent pI of 5.0 when subjected to chromatofocusing. This species was further characterized using sodium dodecyl sulphate-polyacrylamide gel electrophoresis and nitrocellulose blotting techniques as well as highly specific radioimmunoassays to (Met5)-enkephalin, (Leu5)-enkephalin, and (Met5)-enkephalin-Arg6-Phe7. This species was found to contain these opioid peptides in an approximately 6:1:1 ratio, respectively, and to have an apparent molecular weight of 31,000. It was also indicated that (Met5)-enkephalin-Arg6-Phe7 constituted the C-terminal seven residues of this molecule.
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PMID:Identification of a proenkephalin precursor in striatal tissue. 383 41

Paired basic residues, particularly Lys-Arg, are known as a typical site for proteolytic processing of prohormones. In this study, we confirmed the presence of a novel protease exhibiting substrate specificity toward Lys-Arg sequence. It was partially purified from the soluble fraction of bovine adrenomedullary chromaffin granules by using an affinity chromatography on soybean trypsin inhibitor-Sepharose. The enzyme, with optimal pH around 7.5-9.5, is classified into a serine-protease family by its inhibition spectrum. The enzyme specifically cleaves in between the Lys-Arg bonds of the peptides related to proenkephalins, but the sequences of Arg-Arg, Arg-Lys and a single basic residue (Arg or Lys) in the substrates are not affected by the enzyme. The unique substrate specificity of the enzyme suggests that it is distinct from pancreatic trypsin and may be physiologically involved in proenkephalin processing.
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PMID:A putative prohormone processing protease in bovine adrenal medulla specifically cleaving in between Lys-Arg sequences. 392 69

Enkephalins are pentapeptides with opioid activity that have been found in brain and other neural tissues. They are released by proteolytic processing of the proenkephalin, which contains several enkephalin sequences each flanked by pairs of basic amino acid (aa) residues. We have constructed an artificial variant of the proenkephalin gene by concatenation of synthetic oligodeoxynucleotides (oligo) coding for Met-enkephalin preceded by two arginines. One of the resulting structures, containing eleven enkephalin sequences separated by pairs of arginine codons, was cloned in the expression vector pRE31. The biological activity of enkephalin was detected after the digestion of the isolated plasmid-coded protein with trypsin and carboxypeptidase B. The product of the synthetic gene may thus serve as a defined simplified substrate for the study of the not yet fully understood enzymatic mechanisms of proenkephalin processing.
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PMID:Cloning and expression in Escherichia coli of the synthetic proenkephalin analogue gene. 393 64

Cerebrospinal fluid (CSF) taken from rats implanted with chronic cisternal cannulae and extracts prepared from rat adrenal gland and striatum were subjected to Sephadex G-50 chromatography and HPLC. Fractions were monitored using specific radioimmunoassays (RIA) for the pentapeptide methionine enkephalin (Met-Enk) and methionine enkephalin-Arg6-Gly7-Leu8 (Met-EnkRGL). In rat CSF, striatum and adrenal gland, three Met-EnkRGL-immunoreactive (IR) peaks of Mrs 8000, 5000 and 1000 daltons were detected. The same peaks were also found to possess Met-Enk-immunoreactivity after enzyme digestion of Sephadex G-50 fractions with trypsin and carboxypeptidase B (CPB), suggesting their derivation from proenkephalin. HPLC of the 8K and 5K peaks on a column of Ultrapore RPSC showed them to elute discretely with similar retention times, indicative of hydrophobic peptides of large molecular weight. Their similar hydrophobicities yet significant separation during gel filtration would suggest that the 8K and 5K peptides are structurally closely related yet different with respect to their molecular weights. HPLC of the small molecular weight material from rat striatum and adrenal gland revealed the presence of Met-EnkRGL and Met-EnkRGL sulphoxide in both tissues. In rat striatum Met-Enk and its sulphoxide were also detected. The oxidised pentapeptide was found to be present in rat CSF, together with two unidentified small molecular weight Met-Enk-IR peaks detected without prior enzyme digestion of fractions. The small molecular weight Met-EnkRGL-IR material in rat CSF was found to be comprised of two unknown peptides which were less hydrophobic than Met-EnkRGL and its sulphoxide derivative.
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PMID:Pro-enkephalin peptides possessing Met-enkephalin-Arg6-Gly7-Leu8-immunoreactivity in rat CSF, striatum and adrenal gland. 403 9

Antisera to a synthetic peptide corresponding to the 95-117 sequence of proenkephalin were used to develop a sensitive radioimmunoassay. Gel-filtration of acid extracts of bovine adrenal medulla and purified chromaffin granules revealed that the antisera recognized high molecular weight material (Mr approximately 5,000-30,000). The material in peak I ( Mr 20 ,000-30,000) and peak II (Mr 10,000-20,000) was further purified by immunoaffinity chromatography. Sequential digestion of each of these fractions with trypsin and carboxypeptidase B generated immunoreactive Met-enkephalin. This study demonstrates that antisera against a synthetic peptide cross-react with high molecular weight enkephalin-containing precursors, validating the use of these antisera in studies of enkephalin biosynthesis.
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PMID:Antisera to synthetic peptide recognize high molecular weight enkephalin-containing proteins. 620 24

An adrenomedullary protease capable of generating Met5-enkephalin from endogenous precursor(s) has been purified 1,000-fold using affinity chromatography in combination with gel filtration. This trypsin-like enzyme has an apparent molecular weight of 20,000 daltons by gel filtration. The reactivity of the enzyme toward several fluorogenic peptides, Peptides E and F, and the heptapeptides, Met5-enkephalin-Arg6-Phe7 and Met5-enkephalin-Arg6-Arg7, was examined. The two heptapeptides and the fluorogenic compounds were poor substrates for the adrenal enzyme; in contrast, Peptides E and F were cleaved. The low molecular weight products of Peptide F digestion were identified by HPLC as Arg1-Met6-enkephalin, Met5-enkephalin, and Met5-enkephalin-Lys6, while digestion of Peptide E resulted in the production of Leu5-enkephalin and Met5-enkephalin-Arg6-Arg7. [3H]-beta m-Lipotropin was not hydrolyzed by the adrenal enzyme. These results indicate that this adreno-medullary protease is capable of cleaving adrenal opioid peptides at the paired basic sites and thus represents a possible candidate for a proenkephalin-converting enzyme.
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PMID:Further characterization of an enkephalin-generating enzyme from adrenal medullary chromaffin granules. 636 50

An enzyme capable of converting putative opioid peptide intermediates to free enkephalin has been purified 300-fold from washed rat brain membranes. The action of this enzyme, an enkephalin-generating endopeptidase (EGE), was compared with the action of carboxypeptidase B after trypsin treatment on enkephalin precursor peptides present in rat striata. After Sephadex G-100 gel filtration of striatal material, fractions were radioimmunoassayed for enkephalin content using an antiserum specific for the carboxyl terminal of enkephalin. Additionally, aliquots of the column fractions were treated with either trypsin and carboxypeptidase B, trypsin and EGE, or EGE alone. The peak of enkephalin immunoreactivity increased with the enzymes' treatment indicating the conversion of the low molecular weight proenkephalin precursor peptides to enkephalin. Trypsin and EGE generated almost as much enkephalin as trypsin and carboxypeptidase B in the conditions of the experiment. Thus EGE is capable of processing precursors to enkephalin after the action of trypsin-like enzyme(s) in the brain. The gel filtration fractions containing enkephalin and its low molecular weight precursors were pooled and one-half treated with EGE. The contents were analyzed by HPLC and the increase in immunoreactivity co-eluted with enkephalin and Leu-enkephalin. Small peptides found to be the most potent competitive inhibitors of this enzyme are Met-Arg-Phe-Ala, and Met-Arg-Phe.
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PMID:Brain endopeptidase generates enkephalin from striatal precursors. 675 May 68

The biosynthesis and initial processing of the methionine-enkephalin precursor preproenkephalin A were examined by cell-free translation of mRNA from brain and adrenal medulla. A novel antiserum raised against Met-enkephalin-Arg6-Phe7 was shown to react with bovine adrenal medulla fractions (apparent Mr 34,000) containing proenkephalin A. Affinity-purified antibodies from this antiserum were used to immunoprecipitate cell-free translated [35S]Met-enkephalin-containing protein. A protein of apparent Mr 30,000 +/- 500 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis was the only Met-enkephalin precursor consistently synthesized by translation of mRNA from bovine or guinea pig striatum, rat brain, or bovine adrenal medulla. The presence of [35S]Met-enkephalin sequences in this protein was confirmed by high pressure liquid chromatography of trypsin/carboxypeptidase B digests. Dog pancreas endoplasmic reticulum membranes converted the Mr 30,000 protein to an immunoreactive protein of apparent Mr 28,500 that lacked significant core glycosylation. These results suggest that 1) a protein similar or identical to bovine adrenal medullary preproenkephalin A is the major Met-enkephalin precursor synthesized in brain as well as adrenal medulla, and 2) preproenkephalin A is converted to a protein resembling proenkephalin A, presumably by removal of a signal peptide.
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PMID:In vitro biosynthesis and processing of immunologically identified methionine-enkephalin precursor protein. 682 79

Synenkephalin (proenkephalin 1-70) is produced and secreted as an intact molecule or as a part of precursors in the adult brain and adrenal medulla, respectively. However, it is cleaved to low molecular weight peptides in proliferating immune cells. Considering that the pre-proenkephalin gene is expressed in the embryonic rat brain during the cell proliferation stage, we studied the processing of synenkephalin in embryonic rat brains (E18) and compared it with the processing in adult rat brains. IR-synenkephalin was measured by RIA using a C-terminally directed antiserum. Adult rat brains contained higher concentrations of immunoreactive (IR)-synenkephalin (2,612 + 264) than embryonic rat brain (1,361 + 100) (results in fmol/mg proteins, n = 5). Gel filtration chromatography (Sephadex G-50) showed that in the extracts of adult rat brain, 50% of the IR-synenkephalin eluted in the position of the authentic peptide (8 kDa) and the rest of the immunoreactivity corresponded to partially processed peptides of 4.0 and 2.5 kDa. In embryonic rat brains synenkephalin was processed to intermediate peptides of 2.5, 1.7 and mainly to a low molecular weight peptide of 1.0 kDa. The concentration of this last peptide, which was further characterized by affinity column and HPLC, represented 45% of the total immunoreactivity. IR-met-enkephalin in embryonic rat brains (analyzed before and after enzymatic digestion with trypsin and carboxypeptidase B) corresponded principally to non-processed or partially processed products. However, these were cleaved to free met-enkephalin in adult rat brains.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Synenkephalin processing in embryonic rat brain. 817 24

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