Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q07644 (polypeptide)
 72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The serine protease inhibitors of the serpin family are an unusual group of proteins thought to have metastable native structures. Functionally, they are unique among polypeptide protease inhibitors, although their precise mechanism of action remains controversial. Conflicting results from previous studies have suggested that the stable serpin-protease complex is trapped in either a tight Michaelis-like structure, a tetrahedral intermediate, or an acyl-enzyme. In this report we show that, upon association with a target protease, the serpin reactive-center loop (RCL) is cleaved resulting in formation of an acyl-enzyme intermediate. This cleavage is coupled to rapid movement of the RCL into the body of the protein bringing the inhibitor closer to its lowest free energy state. From these data we suggest a model for serpin action in which the drive toward the lowest free energy state results in trapping of the protease-inhibitor complex as an acyl-enzyme intermediate.
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PMID:Serpin-protease complexes are trapped as stable acyl-enzyme intermediates. 759 87

Pigment epithelium-derived factor (PEDF), a neurite-promoting factor, has an amino acid primary structure that is related to members of the serine protease inhibitor (serpin) family. Controlled proteolysis of native PEDF (50 kDa) with either trypsin, chymotrypsin, elastase, or subtilisin yields in each case one major limited product of 46 kDa as analyzed by SDS-polyacrylamide gel electrophoresis. N-terminal sequence analysis of the isolated 46-kDa products indicates a favored cleavage region located toward the C-terminal end of PEDF. A proteolyzed PEDF protein reaction mixture reveals two overlapping sequences: that of the N terminus of intact PEDF and that of an internal region, consistent with cleavage of PEDF about position 382. These data indicate that PEDF protein has a globular conformation with one protease-sensitive exposed loop that contains the homologous serpin-reactive site. Cleavage within the reactive-site loop of PEDF does not cause a conformational change in the molecules (the stressed (S)-->relaxed (R) transition) and results in heat denaturation identical to its native counterpart. This lack of conformational change is also seen upon cleavage within the reactive-site loop of the noninhibitory serpin ovalbumin. Furthermore, the PEDF neurite-promoting function is not lost with cleavage of the exposed loop. Recombinant PEDF polypeptide fragments with larger truncations from the C-terminal end show neurotrophic activity. Our results clearly indicate that integrity of the PEDF homologous serpin reactive center is dispensable for neurotrophic activity. Thus, the PEDF induction of neurites must be mediated by a mechanism other than serine protease inhibition. Altogether our data indicate that PEDF belongs to the subgroup of noninhibitory serpins and that its N-terminal region confers a neurite-promoting activity to the protein. The neurotrophic active site of PEDF is separated from the serpin reactive-site loop, not only in the primary structure, but also in the folded protein structure.
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PMID:Pigment epithelium-derived factor behaves like a noninhibitory serpin. Neurotrophic activity does not require the serpin reactive loop. 759 90

Sites are microenvironments within a biomolecular structure, distinguished by their structural or functional role. A site can be defined by a three-dimensional location and a local neighborhood around this location in which the structure or function exists. We have developed a computer system to facilitate structural analysis (both qualitative and quantitative) of biomolecular sites. Our system automatically examines the spatial distributions of biophysical and biochemical properties, and reports those regions within a site where the distribution of these properties differs significantly from control nonsites. The properties range from simple atom-based characteristics such as charge to polypeptide-based characteristics such as type of secondary structure. Our analysis of sites uses non-sites as controls, providing a baseline for the quantitative assessment of the significance of the features that are uncovered. In this paper, we use radial distributions of properties to study three well-known sites (the binding sites for calcium, the milieu of disulfide bridges, and the serine protease active site). We demonstrate that the system automatically finds many of the previously described features of these sites and augments these features with some new details. In some cases, we cannot confirm the statistical significance of previously reported features. Our results demonstrate that analysis of protein structure is sensitive to assumptions about background distributions, and that these distributions should be considered explicitly during structural analyses.
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PMID:Characterizing the microenvironment surrounding protein sites. 761 62

A neutral endoprotease was isolated from porcine antral mucosa and purified to homogeneity as examined by SDS-polyacrylamide gel electrophoresis (PAGE). Throughout the purification, t-butyloxycarbonyl-Arg-Val-Arg-Arg-4- methylcoumaryl-7-amide (MCA) was used as a substrate, which was found to be hydrolyzed specifically by the enzyme at the Arg-Arg bond. Unexpectedly, however, the enzyme was also found to hydrolyze vasoactive intestinal polypeptide (VIP) fairly specifically and more efficiently when various neuropeptides and related peptides were examined as substrates. It could degrade VIP by cleaving three peptide bonds not containing an arginine residue(s) with Km = 7.7 x 10(-6) M and kcat/Km = 7.4 x 10(6) M-1 s-1 (at pH 7.6 in the presence of 0.1% Lubrol PX), whereas only secretin, substance P, and a few others were hydrolyzed at much slower rates among the various peptides examined. Both activities toward the MCA substrate and VIP behaved in parallel throughout the purification procedures and showed essentially the same pH optimum and susceptibility toward various inhibitors and detergents. Therefore, both activities are thought to be due to the same enzyme. This endoprotease required 0.001% or a higher concentration of a detergent such as Lubrol PX or Triton X-100 for its maximal activity. Its optimum pH was about 7.5 and the molecular weight was estimated to be approximately 37,000 by SDS-PAGE. This enzyme was strongly inhibited by serine protease inhibitors such as diisopropyl-fluorophosphate and phenylmethanesulfonyl fluoride. It was also inhibited by p-chloromercuribenzoic acid, but not by some other cysteine protease inhibitors. Therefore, the enzyme appears to be most likely a kind of serine protease although its possibility as a cysteine protease cannot be completely excluded. Analysis of its cleavage specificity toward various oligopeptides indicated the possibility that the protease might recognize a specific amino acid sequence(s) and/or conformation in the vicinity of the cleavage site of the target peptide. Various characteristics of the endoprotease suggest that it is a novel membrane-bound neuropeptide-degrading endoprotease fairly specific for VIP.
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PMID:Purification and characterization of a vasoactive intestinal polypeptide-degrading endoprotease from porcine antral mucosal membranes. 771 70

The X-ray crystal structure of prethrombin2 (pre2), the immediate inactive precursor of alpha-thrombin, has been determined at 2.0 A resolution complexed with hirugen. The structure has been refined to a final R-value of 0.169 using 14,211 observed reflections in the resolution range 8.0-2.0 A. A total of 202 water molecules have also been located in the structure. Comparison with the hirugen-thrombin complex showed that, apart from the flexible beginning and terminal regions of the molecule, there are 4 polypeptide segments in pre2 differing in conformation from the active enzyme (Pro 186-Asp 194, Gly 216-Gly 223, Gly 142-Pro 152, and the Arg 15-Ile 16 cleavage region). The formation of the Ile 16-Asp 194 ion pair and the specificity pocket are characteristic of serine protease activation with the conformation of the catalytic triad being conserved. With the determination of isomorphous structures of hirugen-thrombin and D-Phe-Pro-Arg chloromethyl ketone (PPACK)-thrombin, the changes that occur in the active site that affect the kinetics of chromogenic substrate hydrolysis on binding to the fibrinogen recognition exosite have been determined. The backbone of the Ala 190-Gly 197 segment in the active site has an average RMS difference of 0.55 A between the 2 structures (about 3.7 sigma compared to the bulk structure). This segment has 2 type II beta-bends, the first bend showing the largest shift due to hirugen binding. Another important feature was the 2 different conformations of the side chain of Glu 192. The side chain extends to solvent in hirugen-thrombin, which is compatible with the binding of substrates having an acidic residue in the P3 position (protein-C, thrombin platelet receptor). In PPACK-thrombin, the side chain of Asp 189 and the segment Arg 221A-Gly 223 move to provide space for the inhibitor, whereas in hirugen-thrombin, the Ala 190-Gly 197 movement expands the active site region. Although 8 water molecules are expelled from the active site with PPACK binding, the inhibitor complex is resolvated with 5 other water molecules.
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PMID:The isomorphous structures of prethrombin2, hirugen-, and PPACK-thrombin: changes accompanying activation and exosite binding to thrombin. 775 83

Cleavage at the 2/3 site of hepatitis C virus (HCV) is thought to be mediated by a virus-encoded protease composed of the region of the polyprotein encoding NS2 and the N-terminal one-third of NS3. This protease is distinct from the NS3 serine protease, which is responsible for downstream cleavages in the nonstructural region. Site-directed mutagenesis of residues surrounding the 2/3 cleavage site showed that cleavage is remarkably resistant to single-amino-acid substitutions from P5 to P3' (GWRLL decreases API). The only mutations which dramatically inhibited cleavage were the ones most likely to alter the conformation of the region, such as Pro substitutions at the P1 or P1' position, deletion of both amino acids at P1 and P1', or simultaneous substitution of multiple Ala residues. Cotransfection experiments were done to provide additional information on the polypeptide requirements for bimolecular cleavage. Polypeptides used in these experiments contained amino acid substitutions and/or deletions in NS2 and/or the N-terminal one-third of NS3. Polypeptides with defects in either NS2 or the N-terminal portion of NS3 but not both were cleaved when cotransfected with constructs expressing intact versions of the defective region. Cotransfection experiments also showed that certain defective NS2-3 constructs partially inhibited cleavage of wild-type polypeptides. Although these results show that inefficient cleavage can occur in a bimolecular reaction, they suggest that both molecules must contribute a functional subunit to allow formation of a protease which is capable of cleavage at the 2/3 site. This reaction may resemble the cis cleavage thought to occur at the 2/3 site during processing of the wild-type HCV polyprotein.
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PMID:Hepatitis C virus-encoded NS2-3 protease: cleavage-site mutagenesis and requirements for bimolecular cleavage. 776 71

Structure-based mutational analysis of serine protease specificity has produced a large database of information useful in addressing biological function and in establishing a basis for targeted design efforts. Critical issues examined include the function of water molecules in providing strength and specificity of binding, the extent to which binding subsites are interdependent, and the roles of polypeptide chain flexibility and distal structural elements in contributing to specificity profiles. The studies also provide a foundation for exploring why specificity modification can be either straightforward or complex, depending on the particular system.
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PMID:Structural basis of substrate specificity in the serine proteases. 779 18

Cucumisin is a thermostable alkaline serine protease that is found in the juice of melon fruits (Cucumis melo L.). We have determined the complete nucleotide sequence of a cucumisin cDNA (2,552 nucleotides) and deduced the corresponding amino acid sequence. The open reading frame of the cDNA consists of 731 codons and encodes a large precursor (molecular weight, 78,815) relative to the observed size of mature native cucumisin (67 kDa). Sequence comparisons reveal that cucumisin has several features in common with the microbial proteases of the subtilisin family. The highly conserved sequences to the proximal regions of the catalytic triad amino acids Asp, His, and Ser, together with the substrate binding site in subtilisin, can be found within the deduced amino acid sequence of the protease domain of the cucumisin precursor. Cucumisin is the first known plant protease with such characteristics. Examination of the primary structure of cucumisin revealed that it is synthesized as a precursor, consisting of four functional domains: a possible signal peptide (22 amino acid residues), an NH2-terminal pro-sequence (88 residues), a 54-kDa protease domain (505 residues), which is the active enzyme domain of the 67-kDa native cucumisin, and a 14-kDa COOH-terminal polypeptide (116 residues), which arises by limited autolysis of the 67-kDa native cucumisin. This structure of cucumisin suggests that it is probably synthesized as an inactive precursor.
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PMID:Cucumisin, a serine protease from melon fruits, shares structural homology with subtilisin and is generated from a large precursor. 780 92

Diverse developmental processes, such as neuronal growth cone migration and cell shape changes, are mediated by the interactions of cells with the extracellular matrix. We describe here a secreted molecule encoded by the Drosophila masquerade (mas) gene. Total loss of mas function causes defective muscle attachment. This mutant phenotype suggests that mas normally acts to stabilize cell-matrix interaction and represents a novel functional and limiting component in the adhesion process. mas encodes a 1047-amino-acid preproprotein that is further processed by proteolytic cleavage to generate two polypeptides. The carboxy-terminal polypeptide is highly similar to serine proteases and has an extracellular localization; however, it is unlikely to possess proteolytic activity, because the catalytic site serine has been substituted by a glycine residue. During embryonic development, the mas amino- and carboxy-terminal polypeptides are differentially localized. The mas carboxy-terminal polypeptide accumulates at all somatic muscle attachment sites, which corresponds well with the morphological defect seen in the mas mutants. Our findings demonstrate the involvement of an extracellular component in somatic muscle attachment. We propose that mas acts via its modified serine protease motif, either as a novel adhesion molecule and/or as a competitive antagonist of serine proteases, to stabilize muscle attachment.
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PMID:Masquerade: a novel secreted serine protease-like molecule is required for somatic muscle attachment in the Drosophila embryo. 785 90

The polyprotein encoded by a single open reading frame of hepatitis C virus (HCV) is processed by host- and virus-encoded proteases. The viral protease NS3 is responsible for the cleavage of at least four sites (NS3/4A, NS4A/4B, NS4B/5A, and NS5A/5B junctions) in the nonstructural protein region. To characterize the protease function of NS3 and NS4 on various target sites, efficient cis- and trans-cleavage assay systems were developed by using in vitro transcription and translation. Deletion of the C-terminal two-thirds from NS3 in an NS3-NS4A-4B polypeptide (NS3 delta C-4A-4B) hampered cleavage of the NS3/4A junction but not that of the NS4A/4B junction. As a consequence, expression of NS3 delta C-4A-4B containing an internal deletion of NS3 results in an NS3 delta C-4A fusion protein. NS3 delta C-4A shows very efficient and specific trans-cleavage activity at NS4A/4B, NS4B/5A, and NS5A/5B junctions. In addition, the biochemical properties of HCV NS3 delta C-4A were further elucidated by adding known protease inhibitors in trans-cleavage reactions. The HCV protease NS3-4A is inhibited by chymotrypsin-specific inhibitors N-tosyl-L-phenylalanine chloromethyl ketone (TPCK), chymostatin, and Pefabloc SC but not by trypsin-like protease inhibitors antipain, leupeptin, and N-alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK) or by the protease inhibitors E-64, bestatin, pepstatin, and phosphoramidon. This finding strongly suggests that HCV protease NS3-4A is a chymotrypsin-like serine protease.
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PMID:NS3-4A of hepatitis C virus is a chymotrypsin-like protease. 788 3


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