EC:3.4.21.4 - FACTA Search

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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)

Many small biologicaly active peptides are derived from larger precursor forms which fulfil a variety of roles in the synthesis, segregation and intracellular migration of secretory products. Limited proteolysis may occur at several stages during this process, giving rise to products that are either degraded (e.g. the prepeptides) or discharged coordinately from their cells of origin during exocytosis (e.g. insulin and C-peptide). Molecular defects have recently been found to occur at cleavage sites in proinsulin as well as in other proproteins, and these point mutations may, in some instances, be responsible for familial metabolic disorders. The nature and cell specificity of the proteolytic enzymes involved in the conversion of the various precursor forms remains unresolved. Recent studies in our laboratory have led to the identification of precursors of glucagon and somatostatin in rat islets of Langerhans. Analysis of tryptic maps of these precursors has shown that a trypsin-like enzyme would be sufficient to cleave the C-terminally located somatostatin sequence from its precursor (relative molecular mass 12,500), but that both trypsin-like and carboxypeptidase B-like enzymes would be necessary to cleave the internal glucagon sequence from its prohormone (relative molecular mass 18,000). Molecular cloning techniques have provided valuable new approaches to analysing the structures of a variety of precursor forms, including those for insulin, gastrin, growth hormone, adrenocorticotropic hormone and the endorphins, and in the future will undoubtedly shed more light on the structures of their chromosomal genes, the mechanisms regulating their expression, and their evolutionary origins.
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PMID:Formation of biologically active peptides. 610 30

A 4.0-kilobase HindIII/EcoRI-cleaved dog genomic DNA fragment was shown to contain the dog insulin gene by restriction mapping using a human insulin cDNA probe. This fragment was subsequently cloned in a lambda vector, and the nucleotide sequence of the dog insulin gene was determined. As in several other species, the insulin gene of the dog is interrupted by two intervening sequences, one of 151 base pairs located in the 5' untranslated region and the other of 264 base pairs occurring within the codon of the 7th amino acid of the C-peptide. Translation of the nucleotide sequence in one frame revealed the primary structure of canine preproinsulin. An interesting feature of the coded amino acid sequence is that it predicts a C-peptide of 31 amino acids, 8 residues longer than that reported by Peterson et al. (Peterson, J. D., Nehrlich, S., Oyer, P. E., and Steiner, D. F. (1973) J. Biol. Chem. 247, 4866-4871). The additional octapeptide sequence, Glu-Val-Glu-Asp-Leu-Gln-Val-Arg, is located NH2-terminal to the 23-residue C-peptide sequence described in the earlier report. Its coding sequence is interrupted by the second intervening sequence. The arginine at position 8 suggests that a trypsin-like cleavage may separate the NH2-terminal octapeptide from the remainder of the C-peptide during the post-translational processing of dog proinsulin in the pancreas. The revised C-peptide sequence suggests that the proinsulin C-peptide is more highly conserved in length and overall sequence than was previously supposed.
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PMID:Cloning and nucleotide sequence analysis of the dog insulin gene. Coded amino acid sequence of canine preproinsulin predicts an additional C-peptide fragment. 629 42

An islet cell tumor, characterized by proinsulin level significantly elevated above normal human pancreas, has been found to contain insulin- and glucagon-degrading activity. Examination by chromatography on Sephadex G-75 of the degradation products formed from insulin showed A chain, and B chain rich-A chain aggregate as previously found with rat pancreatic islets. There was, however, little conversion of A chain to low molecular weight components indicating that insulinoma peptidase that has been found to degrade glucagon at about pH 6.8 degraded that A chain to a markedly lower rate. In contrast to the insulin-degrading activity, which was activated by glutathione in the presence of EDTA, the peptidase activity was not affected by the thiol compound. The activity of the peptidase was markedly inhibited by chelating agents, i.e., EDTA and o-phenanthroline, whereas chymotrypsin and trypsin inhibitors, i.e., TOS-PheCH2Cl, TOS-LysCH2Cl, soybean and pancreas trypsin inhibitor were found to have no effect.
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PMID:Thiol-protein disulfide oxidoreductase and peptidase activities in insulinoma tissue. 632 44

Fused proteins possessing insulin antigenic determinants are synthesized and secreted by several strains of Escherichia coli K-12 bearing plasmids containing cDNA copies of rat proinsulin mRNA. Small amounts of the secreted, fused protein from E. coli strains chi 1776 and HB101 bearing plasmid p147 were partially purified and assayed for biological activity by determining stimulation of [1-14C]glucose oxidation to 14CO2 in the rat epididymal fat pad assay. Guinea pig anti-insulin serum (GPAIS) was used to suppress glucose oxidation stimulated by insulin. After mild treatment with trypsin, fused protein stimulated 14CO2 production, and over 90% of this activity was suppressible by GPAIS. Untrypsinized fused protein demonstrated no GPAIS-suppressible 14CO2 production. Larger amounts of fused protein were obtained by transformation of strain PR13 of E. coli in which the yield of eukaryotic proteins is increased approx. 50-fold. A single intravenous injection of trypsinized fused protein from E. coli PR13 containing plasmid p287.47 resulted in a rapid decline in the plasma glucose levels of fasted mice, and the hypoglycemic effect persisted for at least 120 min.
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PMID:Biological activity of rat proinsulin synthesized by Escherichia coli. 634 Nov 71

A method for the preparation of a radioisotopically labeled active-site directed reagent for proteases (125I-Tyr-Ala-Lys-ArgCH2Cl) is described, and an example of its use as a sensitive method for identifying trypsin-like proteases is provided. This high specific activity reagent was then used in an attempt to identify proteases in rat islets of Langerhans involved in the conversion of proinsulin to insulin. Previous studies have indicated that the endoprotease involved in proinsulin conversion is a cysteine proteinase and that 125I-Tyr-Ala-Lys-ArgCH2Cl affinity labels an islet crude granule fraction protein having a molecular weight of 31,500. Here we demonstrate, using a probe of higher specific activity, that the major affinity-labeled proteins of the islet crude granule fraction, when displayed by sodium dodecyl sulfate gel electrophoresis, have molecular weights of approximately 39,000 (5%), 31,500 (53%), and 5,000-6,000 (37%), with several other minor proteins (less than 5%) also labeled. The two predominant labeled proteins were mainly soluble rather than membrane bound, and they exhibited patterns of competition with various inhibitors that were similar to the pattern shown by the conversion of proinsulin to insulin in vitro. A rabbit antibody to rat liver cathepsin B immunoprecipitated both affinity-labeled 31,500 and 5,000-6,000 molecular weight proteins, and on the basis of this and structural considerations the 31,500 molecular weight cysteine protease is identified as cathepsin B. The 5,000-6,000 molecular weight peptide is an NH2-terminal, active site cysteine-containing, proteolytic fragment of the 31,500 molecular weight protein. Because cathepsin B is not per se a candidate for the proinsulin convertase because of its excessively broad substrate specificity, these studies suggest that a similar enzyme or a modified form of this enzyme is active within the secretory progranules, whereas the more typical cathepsin B may be largely confined to lysosomal contaminants in our granule preparations.
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PMID:Identification of a 31,500 molecular weight islet cell protease as cathepsin B. 634 78

The biosynthesis of insulin, in particular the occurrence of a proinsulin-like molecule (PILM), in the pancreas of the green anole, Anolis carolinensis, was investigated. The laboratory rat was used for comparison and validation of the procedures. Anolian pancreases were incubated in vitro with radiolabeled leucine or proline. Radioactivity incorporated into the acidic ethanol-soluble (AES) phase increased in an essentially linear manner with time. Selective incorporation of labeled amino acids into AES material was not enhanced by a high concentration of glucose (6 mg/ml), by the addition of glucagon, which increases cyclic AMP levels, or by the addition of cytochalasin B; yet all three conditions result in stimulated insulin secretion. Gel filtration of the AES material on columns of Bio-Gel P-30 revealed a major peak of radioactivity whose apex followed closely the apogee of porcine proinsulin. When this presumptive PILM was treated with trypsin and carboxypeptidase B, the radioactivity was shifted towards later elution volumes, but the peak of the converted anolian material was not coincidental with marker insulin. Immunopurification techniques and additional molecular filtrations resulted in the isolation of fractions with both insulin-like immunoreactivity (IRI) and radioactivity derived from tritium-labeled leucine. One peak of radiolabel was present in the region of the proinsulin standards. The level of radioactivity in the region of the insulin standards was relatively high after two days of organ culture of splenic pancreases. By polyacrylamide gel electrophoresis proteins that incorporated radiolabeled amino acids and had insulin-like immunoreactivity possessed migration patterns similar to those of mammalian proinsulin and insulin. The insulin-like component was less readily demonstrated than the proinsulin-like component and raises the possibility that anolian PILM may be a major storage form in this species. The results are consistent with the synthesis of a proinsulin-like precursor in the beta cells of the green anole. The results also provide evidence for a precursor-product relationship in the anolian beta cell.
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PMID:Biosynthesis of a proinsulin-like molecule in the pancreas of a lizard. 635 1

Familial hyperproinsulinemia, a hereditary syndrome in which individuals secrete high amounts of 9,000-mol wt proinsulin-like material, has been identified in two unrelated cohorts. Separate analysis of the material from each of the two cohorts had suggested that the proinsulin-like peptide was a conversion intermediate in which the C-peptide remained attached to the insulin B-chain in one case, whereas it was a conversion intermediate in which the C-peptide remained attached to the insulin A-chain in the other. To reinvestigate this apparent discrepancy, we have now used chemical, biochemical, immunochemical, and physical techniques to compare in parallel the structures of the immunoaffinity chromatography-purified, proinsulin-like peptides isolated from the serum of members of both families. Our results show that affected individuals in both cohorts secrete two-chained intermediates of proinsulin conversion in which the COOH-terminus of the C-peptide is extended by the insulin A-chain and from which the insulin B-chain is released by oxidative sulfitolysis. Analysis of the conversion intermediates by reverse-phase high-performance liquid chromatography using two different buffer systems showed that the proinsulin-related peptides from both families elute at a single position very near that of the normal intermediate des-Arg31, Arg32-proinsulin. Further, treatment of these peptides with acetic anhydride prevented trypsin-catalyzed cleavage of the C-peptide from the insulin A-chain, a result demonstrating the presence of Lys64 and the absence of Arg65 in both abnormal forms. We conclude that individuals from both cohorts with familial hyperproinsulinemia secret very similar or identical intermediates of proinsulin conversion in which the C-peptide remains attached to the insulin A chain and in which Arg65 has been replaced by another amino acid residue.
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PMID:Familial hyperproinsulinemia. Two cohorts secreting indistinguishable type II intermediates of proinsulin conversion. 636 87

Two main forms of immunoreactive insulin have been identified in cultures of foetal mouse brain using HPLC and gel filtration. The major component which resembled proinsulin was converted by trypsin to the minor form which was similar to authentic pancreatic insulin in chromatographic behaviour. Both components showed immunological properties comparable to insulin and proinsulin including sensitivity of the former to reduction and alkylation.
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PMID:Proinsulin-like material in mouse foetal brain cell cultures. 637 66

In an aqueous ultrafiltrate (10 000--50 000) prepared from Ehrlich ascites mammary carcinoma (EAC) cells, ascites fluid and bovine mammary gland, a new factor was obtained which is involved in the growth regulating system of EAC cells as shown by the following facts: 1) It reversibly inhibits the proliferation of EAC cells in a 24 h suspension culture, depending on their proliferative state. Thus, stationary cells from the plateau phase of growth in vivo are prevented from resuming growth in vitro, while cells taken from the active phase of in vivo growth are not inhibited under the same conditions. Likewise, stationary cells do not respond when incubated in serum before the addition of the factor (depending on serum concentrations and time). The dose-response curve levels off at higher factor concentrations so that the maximal inhibition is about 50--65% (explained with different sensitivities of the cells in the assay system). The time course of the inhibition as well as preliminary data from flow cytophotometry and labeling with tritiated thymidine indicate an interference with the progression of G1-phase cells into the S-phase. 2) The activity of the factor is counteracted by insulin and proinsulin, both known as growth factors. The insulin concentration needed is dependent on the factor concentration; an almost maximal inhibition can be prevented by physiological concentrations of insulin. The activity can be destroyed by heat and trypsin and differs also in other properties from that of polyamines. The factor could not be detected in lung, liver, spleen, kidney, heart and L 1210 ascites fluid of the mouse or in bovine malignant lymph nodes, thymus, kidney or liver. The factor was purified from a homogenate of bovine mammary gland by ultrafiltration and affinity chromatography on sepharose-bound wheat lectin. Polyacrylamide electrophoresis showed about 5 bands of which one contained the activity (in some experiments overlapping with a second one). In this way a 800fold purification (starting from the ultrafiltrate) could be obtained. The overall purification (relative to the centrifuged homogenate) can be calculated to be more than 100 000 fold.
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PMID:On a "chalone"-like factor for Ehrlich ascites mammary carcinoma. 644 29

After measuring the effects of trypsin on the plasma of forty-five fasting healthy subjects, a very large increase in C-peptide immunoreactivity was observed. Determination of the proinsulin concentration by gel filtration showed that this increase could not be solely imputed to conversion of circulating proinsulin into desalanyl-insulin and C-peptide by trypsin. Consequently, it is suggested that certain plasma proteins structurally similar to C-peptide might be released by the action of trypsin and crossreact in the radioimmunoassay.
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PMID:Elevation of C-peptide immunoreactivity in plasma of normal subjects after trypsin action. 698 59

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