Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Thyrotrophin-releasing hormone (TRH) and related peptides occur in high concentrations in human semen. TRH derives from a 242-amino acid precursor protein, prepro-TRH, with six repetitive sequences of -Lys-Arg-Gln-His-Pro-Gly-Lys/Arg)-Arg- connected by hydrophobic linking sequences. Antibodies to TRH-Gly (pGlu-His-Pro-Gly), a final precursor for TRH formation, were used to detect this tetrapeptide as well as other prepro-TRH fragments which cross-react with these antibodies. The total TRH-Gly immunoreactivity decreased significantly after vasectomy. The TRH-Gly immunoreactivity in semen increased significantly during in-vitro incubation at 0 or 37 degrees C, to a peak value at 5 h, followed by an exponential decline, with t 1/2 equal to 11 h at 37 degrees C. At 60 degrees C, however, the TRH-Gly immunoreactivity rose continuously, attaining, after 20 h, a level 2.2 times that at the start of the incubation (P less than 0.001). Reversed-phase high pressure liquid chromatography (HPLC) revealed both hydrophobic and hydrophilic TRH-Gly immunoreactive peptides in semen with both classes of peptides increasing significantly with heating to 60 degrees C. Cation exchange chromatography of pooled human semen incubated at 60 degrees C revealed a 4.3-fold increase in a TRH-Gly immunoreactive peak which co-eluted with synthetic TRH-Gly, and a 30% increase in another TRH-Gly immunoreactive peak identified as Glu-His-Pro-Gly. A minor, TRH-Gly immunoreactive peak increased 50-fold (P less than 0.001) during 20 h at 60 degrees C. This material co-eluted with Arg-Gln-His-Pro-Gly which is formed by enzymic cleavage of the paired basic residues flanking this sequence in prepro-TRH. When synthetic Arg-Gln-His-Pro-Gly was incubated with fresh semen at 60 degrees C a rapid conversion of most of this peptide to Glu-His-Pro-Gly, Gln-His-Pro-Gly and TRH-Gly occurred within 30 min. These data are consistent with thermal inactivation of the amidation and degrading enzymes at 60 degrees C while the trypsin-like enzymes which cleave the precursor peptide at the paired basic residues remain relatively unaffected. Because other investigators have found the C-terminal amidating enzymes to be associated with secretory vesicles and to be co-secreted with the vesicular contents, we suggest that secretory epithelia of the male reproductive system secrete TRH and TRH-related precursor peptides along with the alpha-amidating enzymes which continue processing of prepro-TRH in the post-ejaculatory seminal fluid.
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PMID:In-vitro production of precursor peptides for thyrotropin-releasing hormone by human semen. 211 83

Many unexpected biological functions as bioreactants of the intracellular proteases and their endogenous inhibitors have been found recently. Chymase and tryptase in histamine granules of mast cells and basophile cells play an important role in the process of IgE-mediated degranulation and in the formation of an allergic inflammation profile. Furthermore, the relationship between membrane proteases and their endogenous inhibitor has been taken up as a key and key-hole relation which plays an important role for special recognition apparatus of biological information like the relation of peptide hormones (growth factors) and their specific receptors. Amino acid sequences of the active site of trypstatin are homologous with the neutralizing epitope beta of gp120 of AIDS virus (HIV-1). The trypstatin and anti-tryptase M antibody inhibited syncytium formation in HIV infected Molt 4, clone 8 cells. Therefore, the relationship between tryptase M with trypstatin and the recognition site of epitope beta of HIV-1 with the receptor of helper T-cells are the common keys. The precursor of Alzheimer's deposition protein contains a Kunitz-type trypsin inhibitor domain. The A4-precursor proteins are located in axons of pyramidal neurons in brain and secretory granules of chromaffin cells in adrenal medulla. Those may be secreted into the extracellular milieu. We propose that the A4 inhibitor inhibits a special type of tryptase in the brain and disturbs the complete degradation of secreted A4-precursor protein causing amyloid deposition in alzheimer disease by abnormal proteolysis. Human c-Ha-ras p21 shows 58% homology with cystatin beta, an endogenous inhibitor of cathepsin. Actually, p21 inhibits cathepsin L specifically, but not cathepsin H, papain and cathepsin B. However, the metabolic significance of this inhibitory activity is still unknown.
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PMID:New biological functions of intracellular proteases and their endogenous inhibitors as bioreactants. 220 23

DNA ligases play obligatory roles during replication, repair, and recombination. Multiple forms of DNA ligase have been reported in mammalian cells including DNA ligase I, the high molecular mass species which functions during replication, and DNA ligase II, the low molecular mass species which is associated with repair. In addition, alterations in DNA ligase activities have been reported in acute lymphocytic leukemia cells, Bloom's syndrome cells, and cells undergoing differentiation and development. To better distinguish the biochemical and molecular properties of the various DNA ligases from human cells, we have developed a method of purifying multiple species of DNA ligase from HeLa cells by chromatography through DEAE-Bio-Gel, CM-Bio-Gel, hydroxylapatite, Sephacryl S-300, Mono P, and DNA-cellulose. DNA-cellulose chromatography of the partially purified enzymes resolved multiple species of DNA ligase after labeling the enzyme with [alpha-32P]ATP to form the ligase-[32P]AMP adduct. The early eluting enzyme activity (0.25 M NaCl) contained a major 67-kDa-labeled protein, while the late eluting activity (0.48 M NaCl) contained two major labeled proteins of 90 and 78 kDa. Neutralization experiments with antiligase I antibodies indicated that the early and late eluting activity peaks were DNA ligase II and I, respectively. The three major ligase-[32P]AMP polypeptides (90, 78, and 67 kDa) were subsequently purified to near homogeneity by elution from preparative sodium dodecyl sulfate-polyacrylamide gels. All three polypeptides retained DNA ligase activities after gel elution and renaturation. To further reveal the relationship between these enzymes, partial digestion by V8-protease was performed. All three purified polypeptides gave rise to a common 22-kDa-labeled fragment for their AMP-binding domains, indicating that the catalytic sites of ligase I and II are quite similar, if not identical. Similar findings were obtained from the two-dimensional gel electrophoresis of their AMP-binding domains in the trypsin-digested protein fragments. The results also suggested that these isozymes have been derived from the same primordial DNA sequence or from the same precursor protein. The purification scheme and the data obtained will be instrumental for the further elucidation of the biological roles of various DNA ligases from human cells.
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PMID:Fingerprinting of near-homogeneous DNA ligase I and II from human cells. Similarity of their AMP-binding domains. 221 88

The precursor protein p62 of the prototype alphavirus Semliki Forest virus (SFV) undergoes during transport to the cell surface a proteolytic cleavage to form the mature envelope glycoprotein E2. To investigate the biological significance of this cleavage event, single amino acid substitutions were introduced at the cleavages site through mutagenesis of cDNA corresponding to the structural region of the SFV genome. The phenotypes of the cleavage site mutants were studied in BHK cells by using recombinant vaccinia virus vectors. Nonconservative substitutions completely abolished p62 cleavage. Uncleaved p62 was transported with normal kinetics to the cell surface, where it became accessible to low concentrations of exogenous trypsin. The proteolytic cleavage of envelope glycoprotein precursors has been shown to activate the membrane fusion potential of viral spikes in several virus families. Here we demonstrate that the fusion function of the SFV spike is activated by the cleavage of p62. Cleavage-deficient p62 expressed at the cell surface did not function in low-pH-triggered (pH 5.5) cell-cell membrane fusion; however, cleavage of the mutated p62 with exogenous trypsin restored the fusion function. We discuss a model for SFV assembly and fusion where p62 cleavage plays a crucial role in the stability of the multimeric association of the viral envelope glycoproteins.
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PMID:Fusion function of the Semliki Forest virus spike is activated by proteolytic cleavage of the envelope glycoprotein precursor p62. 230 41

The importance of the various regions of the apocytochrome c molecule and the effect of covalent coupling of the heme group to the protein for the translocation across a model-membrane was studied by using chemically and enzymatically prepared fragments of horse heart apo- and holocytochrome c and model-membranes composed of phosphatidylserine and phosphatidylcholine. Binding experiments showed that fragments of apocytochrome c with the highest net positive charge have the highest affinity for negatively charged large unilamellar phosphatidylserine vesicles. Monolayer experiments demonstrated that the amino-terminal fragments were only able to penetrate into a phosphatidylserine monolayer whereas the carboxyl-terminal fragments, in addition, penetrated into a phosphatidylcholine monolayer although with a lower efficiency. The covalent coupling of the heme group to both a small amino-terminal fragment residue numbers 1-38 and to the entire precursor protein resulted in a marked decrease in the ability to penetrate into a phosphatidylserine monolayer. Translocation experiments with trypsin enclosed in vesicles, showed that only the amino-terminal fragments of the precursor protein and not carboxyl-terminal peptides or the heme-containing fragments of the mature protein were able to cross the bilayer and become digestible by trypsin at the opposite side of the bilayer. Circular dichroism measurements with the various peptides both in an aqueous and lipidic environment were performed to investigate the conformation of apocytochrome c after interaction with model-membranes. Implications of these data for the import of apocytochrome c into mitochondria will be discussed.
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PMID:The importance of the amino terminus of the mitochondrial precursor protein apocytochrome c for translocation across model membranes. 253 3

The relationship between the length of the connecting peptide in a paramyxovirus F0 protein and cleavage of F0 into the F1 and F2 subunits has been examined by constructing a series of mutant F proteins via site-directed mutagenesis of a cDNA clone encoding the simian virus 5 F protein. The mutant F proteins had one to five arginine residues deleted from the connecting peptide. The minimum number of arginine residues required for cleavage-activation of the simian virus 5 F0 protein by host cell proteases was found to be four. F proteins with two or three arginine residues in the connecting peptide were not cleaved by host cell proteases but could be cleaved by exogenously added trypsin. The mutant F protein possessing a connecting peptide consisting of one arginine residue was not cleaved by trypsin. The altered F proteins were all transported to the infected-cell plasma membrane as shown by cell surface immunofluorescence or cell surface trypsinization. However, the only mutant F protein found to be biologically active as detected by syncytium formation was the F protein which has four arginine residues at the cleavage site. The results presented here suggest that in the paramyxovirus F protein the number of basic amino acid residues in the connecting peptide is important for cleavage of the precursor protein by host cell proteases but is not the only structural feature involved. In addition, the data indicate that cleavage of F0 into F1 and F2 does not necessarily result in biological activity and that the connecting peptide may affect the local conformation of the F polypeptide.
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PMID:Analysis of the relationship between cleavability of a paramyxovirus fusion protein and length of the connecting peptide. 264 48

A newly discovered macrophage-chemotactic factor (MCFS-1) was extracted and purified (488-fold) from skin sites of guinea pigs showing delayed hypersensitivity to bovine gamma-globulin. MCFS-1 is a heat-labile glycoprotein with a molecular weight of 150,000, consisting of two polypeptide chains. It has in vivo as well as in vitro chemotactic activity for macrophages and shared 50% of the chemotactic activities for macrophages in the extract. It is produced by limited proteolysis of endogenous trypsin-like protease(s) of plasma precursor protein (Pre-MCFS-1). Enzyme immunohistochemistry reveals that Pre-MCFS-1 is produced in the liver and distributed in the normal skin as a proinflammatory factor. ELISA reveals that the concentrations of the factor are: 140 micrograms/ml in plasma, 7.1 micrograms/ml in inflamed skin extract, and 2.8 micrograms/ml in normal skin extract.
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PMID:Chemotactic factors for macrophages produced in inflamed skin. 267 55

Interleukin-1, first identified as a macrophage factor of importance in infections and inflammation, is a protein with properties of an endogenous pyrogene and lymphocyte activating factor. Occurrence of interleukin-1-like immunoreactivity was demonstrated in the noradrenergic chromaffin cells of the rat and mouse adrenal gland by means of two antisera raised against synthetic peptides corresponding to the amino acid sequences 169-194 and 201-215 of the murine interleukin-1 precursor protein. These antisera also inhibited stimulation of interleukin-2 receptor expression by purified human interleukin-1. Reserpine, which is known to deplete catecholamines, also caused release of the interleukin-1-like immunoreactive material. The interleukin-1 content of the rat adrenal medulla was estimated by radioimmunoassay, and if released the adrenal interleukin-1 pool may result in plasma interleukin-1 levels of about 10(-12). The interleukin-1-immunoreactive material obtained from the rat adrenal gland was characterized as a trypsin-sensitive protein with a molecular weight in the range of 13,000-19,000. This protein fraction stimulated interleukin-2 receptor expression on human T-cells as earlier shown for interleukin-1.
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PMID:Interleukin-1 in adrenal chromaffin cells. 278 29

Tonin is a mammalian serine protease that is capable of generating the vasoconstrictive agent, angiotensin II, directly from its precursor protein, angiotensinogen, a process that normally requires two enzymes, renin and angiotensin-converting enzyme. The X-ray crystallographic structure determination and refinement of tonin at 1.8 A resolution and the analysis of the resulting model are reported. The initial phases were obtained by the method of molecular replacement using as the search model the structure of bovine trypsin. The refined model of tonin consists of 227 amino acid residues out of the 235 in the complete molecule, 149 water molecules, and one zinc ion. The R-factor (R = sigma Fo - Fc/sigma Fo) is 0.196 for the 14,997 measured data between 8 and 1.8 A resolution with I greater than or equal to sigma (I). It is estimated that the overall root-mean-square error in the coordinates is about 0.3 A. The structure of tonin that has been determined is not in its active conformation, but one that has been perturbed by the binding of Zn2+ in the active site. Zn2+ was included in the buffer to aid the crystallization. Nevertheless, the structure of tonin that is described is for the most part similar to its native form as indicated by the close tertiary structural homology with kallikrein. The differences in the structures of the two enzymes are concentrated in several loop regions; these structural differences are probably responsible for the differences in their reactivities and specificities.
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PMID:Rat submaxillary gland serine protease, tonin. Structure solution and refinement at 1.8 A resolution. 282 Dec 76

A hepta-peptide, Arg-Leu-Leu-Pro-Ser-Leu-Gly, which has a sequence involved in the extra peptides of mitochondrial proteins, was synthesized chemically. The peptide was found to bind specifically to mitochondria, but not to microsomes. The binding was blocked by pretreatment of mitochondria with trypsin but was not affected by the presence of apocytochrome c. The synthetic peptide inhibited the binding to mitochondria of the precursor protein of ATPase inhibitor, which was synthesized in vitro, but did not inhibit that of the precursor of the 9 K stabilizing factor, which has an entirely different extra-peptide sequence. The peptide also did not inhibit the binding of apocytochrome c. These results suggest the existence of a common protein receptor on mitochondrial membranes that facilitates entrance of a group of mitochondrial precursor proteins, including pre-ATPase inhibitor.
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PMID:Interaction with mitochondrial membranes of a synthetic peptide with a sequence common to extra peptides of mitochondrial precursor proteins. 298 25


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