A serine protease inhibitor from the anemone <Emphasis Type="Italic">Radianthus macrodactylus</Emphasis>: Isolation and physicochemical characteristics

A serine protease inhibitor with a molecular mass of 6106±2Da (designated as InhVJ) was isolated from the tropical anemone Radianthus macrodactylus by a combination of liquid chromatography methods. The molecule of InhVJ consists of 57 amino acid residues, has three disulfide bonds, and contains no Met or Trp residues. The N-terminal amino acid sequence of the inhibitor (19 aa residues) was established. It was shown that this fragment has a high degree of homology with the N-terminal amino acid sequences of serine protease inhibitors from other anemone species, reptiles, and mammals. The spatial organization of the inhibitor at the levels of tertiary and secondary structures was studied by the methods of UV and CD spectroscopy. The specific and molar absorption coefficients of InhVJ were determined. The percentage of canonical secondary structure elements in the polypeptide was calculated. The inhibitor has a highly ordered tertiary structure and belongs to mixed α/β-or α + β polypeptides. It was established that InhVJ is highly specific toward trypsin (K _i 2.49 × 10^?9 M) and α-chymotrypsin (K _i 2.17 × 10^?8 M) and does not inhibit other proteases, such as thrombin, kallikrein, and papain. The inhibitor InhVJ was assigned to the family of the Kunitz inhibitor according to its physicochemical properties.     

Conformational stability of the serine protease inhibitor InhVJ from the sea anemone <Emphasis Type="Italic">Heteractis crispa</Emphasis>

The effect of temperature and pH of medium on the spatial organization of a molecule of the serine protease inhibitor InhVJ from the sea anemone Heteractis crispa (=Radianthus macrodactylus) at the level of the tertiary and secondary structures has been studied by CD spectroscopy. It has been shown that the conformation of an InhVJ molecule is highly stable to changes in temperature and pH. The point of the thermal conformational transition of the polypeptide (70°C) has been determined, after which the molecule turns into a denatured stable state with the retention of 80% of the inhibitory activity. It was found that significant, partially reversible changes in the spatial organization of the molecule occur on the level of the tertiary structure in the pH range 11.0–13.0, which may be explained by the ionization of tyrosine residues. At a low pH value (2.0), the InhVJ molecule is conformationally stable. The results of quenching of tyrosine residues by acrylamide showed that two residues are completely accessible for the quencher, whereas the third residue is partially accessible.     

Conformational stability of serine proteinase inhibitor from the sea anemone Heteractis crispa

The influence of different environmental values of the pH and temperature on the spatial organization of serine proteinase inhibitor from the sea anemone Heteractis crispa (=Radianthus macrodactylus) on the level of tertiary and secondary structure was studied by CD spectroscopy. The molecule InhVJ was shown to possess a high conformational thermo- and pH-stability. We determined the point of conformational thermotransition of polypeptide (70 degrees C) after which the molecule gets denaturational stable state with conservation of 80% proteinase inhibitory activity. The significant partial reversible changes of molecule spatial organization were established to occur at the level of tertiary structure in the process of acid-base titration in the range of pH 11.0-13.0. This can be explained by of ionization of tyrosine residues. The molecule InhVJ is conformationally stable at the low pH values (2.0). The quenching of tyrosine residues by acrylamide showed that two of these residues are accessible to the quencher in full, while the third part is available.     

Purification and amino acid sequence of Kunitz-type protease inhibitor found in the hemocytes of horseshoe crab (Tachypleus tridentatus)

A low molecular weight protein protease inhibitor was purified from Japanese horseshoe crab (Tachypleus tridentatus) hemocytes. It consisted of a single polypeptide with a total of 61 amino acid residues. This protease inhibitor inhibited stoichiometrically the amidase activity of trypsin (Ki = 4.60 X 10(-10) M), and also had inhibitory effects on alpha-chymotrypsin (Ki = 5.54 X 10(-9) M), elastase (Ki = 7.20 X 10(-8) M), plasmin, and plasma kallikrein. However, it had no effect on T. tridentatus clotting enzyme and factor C, mammalian blood coagulation factors (activated protein C, factor Xa and alpha-thrombin), papain, and thermolysin. The complete amino acid sequence of this inhibitor was determined and its sequence was compared with those of bovine pancreatic trypsin inhibitor (BPTI) and other Kunitz-type inhibitors. It was found that the amino acid sequence of this inhibitor has a high homology of 47 and 43% with those of sea anemone inhibitor 5-II and BPTI, respectively. Thus, this protease inhibitor appeared to be one of the typical Kunitz-type protease inhibitors.     

Study of the interaction of trypsin inhibitor from the sea anemone Radianthus macrodactylus with proteases

The interaction of the inhibitor VJ (InhVJ), isolated from sea anemone R. macrodactylus, with different proteases was investigated using the method of biosensor analysis. The following enzymes were tested: serine proteases (trypsin, α-chymotrypsin, plasmin, thrombin, kallikrein), cysteina protease (papain) and aspartic protease (pepsin). In the rage of the concentrations studied (10–400 nM) inhibitor VJ interacted only with trypsin and α-chymotrypsin. The intermolecular complexes formation between inhibitor VJ and each of these enzymes was characterized by the following kinetic and thermodynamics parameters: K_D = 7.38 × 10^?8 M and 9.93 × 10^?7 M for pairs InhVJ/trypsin and InhVJ/α-chymotrypsin, respectively.     

Kunitz-type protease inhibitor found in rat mast cells. Purification, properties, and amino acid sequence

A low molecular weight serine protease inhibitor, named trypstatin, was purified from rat peritoneal mast cells. It is a single polypeptide with 61 amino acid residues and an Mr of 6610. Trypstatin markedly inhibits blood coagulation factor Xa (Ki = 1.2 x 10(-10) M) and tryptase (Ki = 3.6 x 10(-10) M) from rat mast cells, which have activities that convert prothrombin to thrombin. It also inhibits porcine pancreatic trypsin (Ki = 1.4 x 10(-8) M) and chymase (Ki = 2.4 x 10(-8) M) from rat mast cells, but not papain, alpha-thrombin, or porcine pancreatic elastase. Trypstatin forms a complex in a molar ratio of 1:1 with trypsin and one subunit of tryptase. The complete amino acid sequence of this inhibitor was determined and compared with those of Kunitz-type inhibitors. Trypstatin has a high degree of sequence homology with human and bovine inter-alpha-trypsin inhibitors, A4(751) Alzheimer's disease amyloid protein precursor, and basic pancreatic trypsin inhibitor. However, unlike other known Kunitz-type protease inhibitors, it inhibits factor Xa most strongly.     

Pro-peptide as an intermolecular chaperone: renaturation of denatured subtilisin E with a synthetic pro-peptide

The amino-terminal pro-sequence consisting of 77 amino acid residues is required to guide the folding of secreted subtilisin E, a serine protease, into active, mature enzyme (ikemura et al., 1987). Furthermore, denatured subtilisin E can be folded to active enzyme in an intermolecular process with the aid of an exogenously added pro-subtilisin E, the active site of which was mutated (Zhu et al., 1989). In this report, we have synthesized the pro-peptide of 77 residues (corresponding to -1 to -77 in the sequence, where residue +1 is the N-terminal amino acid residue of the mature protein), and have found that it could intermolecularly complement the folding of denatured subtilisin E to active enzyme. Furthermore, we have found that the synthetic pro-peptide exhibits specific strong binding to the active mature enzyme by inhibiting it competitively at its active centre with an upper limit to a Ki of 5.4 x 10(-7). In contrast, synthetic pro-peptides corresponding to -44 to -77, -1 to -64 and -1 to -43 inhibited the enzyme with Ki values weaker by two orders of magnitude. The results indicate that the sequence extending from -1 to -77 is essential for specificity of interaction, perhaps generating a conformation that accounts for both roles found hitherto, i.e. specific binding to the active centre, and guiding of the refolding to active enzyme. Thus these results suggest that the pro-peptide functions as an intramolecular chaperone [corrected].     

Highly stable glycosylated serine protease from the medicinal plant Euphorbia milii

A serine protease, named as "Milin" was purified to homogeneity from the latex of Euphorbia milii, a medicinal plant of Euphorbiaceae family. The molecular mass (SDS-PAGE), optimum pH and temperature of the enzyme were 51kDa, pH 8.0 and 60 degrees C, respectively. Milin retains full proteolytic activity over a wide range of pH (5.5-12) and temperature (up to 65 degrees C) with casein and azoalbumin as substrates. The activity of milin is inhibited by serine proteases inhibitors like PMSF, APMSF and DFP, but not by any other protease inhibitors such as E-64 and PCMB. Like the other serine proteases from the genus Euphorbia, the activity of milin was not inhibited by the proteinaceous inhibitor soyabean trypsin inhibitor (SBTI) even at very high concentrations that is naturally present in plants. The specific extinction coefficient (epsilon(280 nm)(1%)), molar extinction coefficient (a(m)) and isoelectric point of the enzyme were found to be 29, 152,500 M(-1) cm(-1) and pH 7.2, respectively. The enzyme is a glycoprotein with detectable carbohydrate moiety (7-8%) in its constitution, which is essential for the activity. The numbers of tryptophan, tyrosine and cysteine residues in the sequence of milin were estimated chemically and are 23, 14 and 14, respectively. Of the 14-cysteine residues, 12 constituted 6-disulfide linkages while two are free cysteines. The N-terminal sequence (first 12 amino acid residues) was determined and does not match with any sequence of known plant serine proteases. Perturbation studies by temperature, pH and chaotropes of the enzyme also reveal its high stability as seen by CD, fluorescence and proteolytic activity. Thus, this serine protease may have potential applications in food industry.     

Synthesis and characterization of the first potent inhibitor of yapsin 1. Implications for the study of yapsin-like enzymes

The potent peptidic inhibitor, Y1, of the basic residue-specific yeast aspartyl protease, yapsin 1, was synthesized and characterized. The inhibitor was based on the peptide sequence of a cholecystokinin(13-33) analog that yapsin 1 cleaved with an efficiency of 5.2 x 10(5) m(-1) s(-1) (Olsen, V., Guruprasad, K., Cawley, N. X., Chen, H. C., Blundell, T. L., and Loh, Y. P. (1998) Biochemistry 37, 2768-2777). The apparent K(i) of Y1 for the inhibition of yapsin 1 was determined to be 64.5 nm, and the mechanism is competitive. Y2 was also developed as an analog of Y1 for coupling to agarose beads. The resulting inhibitor-coupled agarose beads were successfully used to purify yapsin 1 to apparent homogeneity from conditioned medium of a yeast expression system. Utilization of this new reagent greatly facilitates the purification of yapsin 1 and should also enable the identification of new yapsin-like enzymes from mammalian and nonmammalian sources. In this regard, Y1 also efficiently inhibited Sap9p, a secreted aspartyl protease from the human pathogen, Candida albicans, which has specificity for basic residues similar to yapsin 1 and might provide the basis for the prevention or control of its virulence. A single-step purification of Sap9p from conditioned medium was also accomplished with the inhibitor column. N-terminal amino acid sequence analysis yielded two sequences indicating that Sap9p is composed of two subunits, designated here as alpha and beta, similar to yapsin 1.     

Direct identification of class II histocompatibility DR proteins in preparations of human T-cell lymphotropic virus type III

Class II histocompatibility DR antigen alpha and beta chains were isolated from preparations of human T-cell lymphotropic virus type III grown in human H-9 cells. The proteins were purified by reversed-phase high-pressure liquid chromatography and identified by direct N-terminal amino acid sequence analysis of each chain. The purified DR alpha chain had an N-terminal amino acid sequence identical to the known sequence of human DR alpha chain through the first 37 residues. The N-terminal amino acid sequence of the purified DR beta chain was identical to that of human DR4 beta chain. The DR alpha and beta chains appeared to be identical to the p34-36K and p30-32K proteins, respectively, concentrated in immunostimulatory complexes prepared from unfractionated virus and were the major immunogens in these complexes. These proteins represent a ready source of antigens which can cause false-positive enzyme-linked immunosorbent assay reactions in individuals previously exposed to allogenic histocompatibility antigens. The removal of the DR chains from virus preparations by use of available monoclonal antibodies or other means should result in a lower rate of initial false-positive enzyme-linked immunosorbent assay reactions.     

Purification and characterization of a trypsin inhibitor from Putranjiva roxburghii seeds

A highly stable and potent trypsin inhibitor was purified to homogeneity from the seeds of Putranjiva roxburghii belonging to Euphorbiaceae family by acid precipitation, cation-exchange and anion-exchange chromatography. SDS-PAGE analysis, under reducing condition, showed that protein consists of a single polypeptide chain with molecular mass of approximately 34 kDa. The purified inhibitor inhibited bovine trypsin in 1:1 molar ratio. Kinetic studies showed that the protein is a competitive inhibitor with an equilibrium dissociation constant of 1.4x10(-11) M. The inhibitor retained the inhibitory activity over a broad range of pH (pH 2-12), temperature (20-80 degrees C) and in DTT (up to100 mM). The complete loss of inhibitory activity was observed above 90 degrees C. CD studies, at increasing temperatures, demonstrated the structural stability of inhibitor at high temperatures. The polypeptide backbone folding was retained up to 80 degrees C. The CD spectra of inhibitor at room temperature exhibited an alpha, beta pattern. N-terminal amino acid sequence of 10 residues did not show any similarities to known serine proteinase inhibitors, however, two peptides obtained by internal partial sequencing showed significant resemblance to Kunitz-type inhibitors.     

Functionally distinct agonist and receptor-binding regions in human chorionic gonadotropin. Development of a tertiary structure model

The histidine residues in human chorionic gonadotropin (hCG) were chemically modified using diethyl pyrocarbonate. Derivatives of hCG with an average of 0.5-3.5 histidines modified (maximum of 4 per hCG) had reduced receptor-binding and cell-stimulating activities. Acylation of hCG at progressively lower pH values (conditions in which 1 of the 2 absolutely conserved histidines alpha His-83 is not titratable, whereas alpha His-94 becomes increasingly protonated and resistant to modification) produced hCG derivatives with a greater retention of receptor-binding activity than cell-stimulating activity. The involvement of alpha His-94 as part of the receptor-binding region of the hormone and of alpha His-83 as a putative active site residue was inferred. Proteinaceous protease inhibitors were shown to neutralize the agonist activity of hCG and to reduce the binding of hCG to its receptor and also to specific antisera. It was presumed that an inhibitor-hormone complex was formed which was analogous to the complexing of inhibitor with the "substrate pocket" of a serine protease. The discovery of primary sequence analogies between hCG and the serine protease chymotrypsin enabled the prediction of hCG structure using the enzyme as a folding template. Solvent-exposed and buried core regions of the peptide chain were delineated using smoothed hydrophobicity profiles in combination with Chou-Fasman secondary structure predictions. Hypervariable hydrophobicity indices between residues 38 and 80 of the human beta subunits reflected different folding arrangements which presumably conferred the individual receptor specificities. When mapped to the putative structure these receptor-determinant loops were adjacent to an area of the alpha subunit analogous to the substrate pocket of serine proteases. Disulfide bond assignments and intersubunit contact regions were identifiable. The proposed tertiary structure for hCG manifests the topographical epitopes defined using monoclonal antibodies and satisfies the currently available data on specific modification and its effects upon hormonal structure and function. This paper is considered to be the first report of a differential effect upon the agonist and receptor binding abilities of a glycoprotein hormone after modification of the proteinaceous, as opposed to the glycosylated, moiety of the molecule.     

beta s-Crystallin: structure and evolution of a distinct member of the beta gamma-superfamily

The nucleotide sequence of the cDNA of bovine lens beta s-crystallin has been determined, and the derived amino acid sequence has been confirmed by amino acid compositions and partial sequences of the tryptic peptides of this monomeric protein. beta s-Crystallin has a length of 177 residues, corresponding to a mol. wt. of 20 773, and a blocked N-terminal serine. Comparison of beta s with the known sequences of other beta- and gamma-crystallins, and computer construction of a phylogenetic tree of these sequences, shows beta s to be more closely related to the monomeric gamma-crystallins than to the oligomeric beta-crystallins. Also the tertiary structure of beta s modelled by interactive computer graphics on the coordinates of gamma II-crystallin, revealed similarities with the gamma-crystallins which might explain its monomeric behavior: the presence of a very short N-terminal 'arm' as compared with the beta-crystallins; a distribution of charged residues on the surface as in the gamma-crystallins; and finally the nature of certain residues of its inter-domain contacts. beta s-Crystallin seems to be an old and isolated offshoot of the gamma-family, and, considering its ancient origin, might well be present in other, non-mammalian, vertebrate classes.     

Chemical replacement of P1' serine residue at the second reactive site of soybean protease inhibitor C-II

The P1' Ser(50) at the second reactive site of soybean protease inhibitor C-II was replaced with arginine to confirm the contribution of this residue to the inhibition. The Arg derivative had less trypsin inhibitory activity (Ki = 1 X 10(-7) M) than the Ser derivative (Ki = 2 X 10(-8) M), in contrast to the results obtained from studies on peanut protease inhibitor B-III reported in the previous paper (J. Biochem. 101, 723-728 (1987)). These results suggest that each Bowman-Birk type inhibitor has an amino acid at the P1' position inherently best suited to maintaining its inhibitory activity, and that serine is not unique for the P1' amino acid in Bowman-Birk type inhibitors.     

Low molecular weight peptide inhibitors of medullasin: purification and structure

Two low molecular weight peptide inhibitors of medullasin were isolated from human bone marrow cells. Determination of their amino acid composition and amino acid sequence revealed that one inhibitor was composed of 36 amino acid residues and the other 34 amino acid residues which are identical with the C-terminal portions (Formula; see text) of the beta-chain of human hemoglobin. These two peptides when synthesized also showed the same degree of inhibitory effect on medullasin activity as the natural products. Neither the N-terminal portion of the inhibitor, composed of 21 amino residues, nor the C-terminal peptide, composed of 20 amino acids, inhibited medullasin activity. Medullasin was inhibited reversibly and non-competitively against by these inhibitors and was the most effectively inhibited serine protease among several tested.     

Primary structure and reactive site of a novel wheat proteinase inhibitor of subtilisin and chymotrypsin

The proteinase inhibitor WSCI, active in inhibiting bacterial subtilisin and a number of animal chymotrypsins, was purified from endosperm of exaploid wheat (Triticum aestivum, c.v. San Pastore) by ion exchange chromatography and its complete amino acid sequence was established by automated Edman degradation. WSCI consists of a single polypeptide chain of 72 amino acid residues, has a molecular mass of 8126.3 Da and a pl of 5.8. The inhibition constants (Ki) for Bacillus licheniformis subtilisin and bovine pancreatic alpha-chymotrypsin are 3.92 x 10(-9) M and 7.24 x 10(-9) M, respectively. The inhibitor contains one methionine and of tryptophan residue and has a high content of essential amino acids (41 over a total of 72 residues), but no cysteines. The primary structure of WSCI shows high similarity with barley subtilisin-chymotrypsin isoinhibitors of the Cl-2 type and with maize subtilisinchymotrypsin inhibitor MPI. Significant degrees of similarity were also found between sequences of WSCI and of other members of the potato inhibitor I family of the serine proteinase inhibitors. The wheat inhibitor WSCI has a single reactive site (the peptide bond between methionyl-48 and glutamyl-49 residues) as identified by affinity chromatography and sequence analysis.     

Localization of reaction center and B800-850 antenna pigment proteins in membranes of Rhodobacter sphaeroides.

The localization of the N- and C-terminal regions of pigment-binding polypeptides of the bacterial photosynthetic apparatus of Rhodobacter sphaeroides was investigated by proteinase K treatment of chromatophore and spheroplast-derived vesicles and amino acid sequence determination. Under conditions of proteinase K treatment of chromatophores, which left the in vivo absorption spectrum and the membrane intact, 15 and 46 amino acyl residues from the N-terminal regions of the L and M subunits, respectively, of the reaction center polypeptides were removed. The N termini are therefore exposed on the cytoplasmic surface of the membrane. The C-terminal domain of the light-harvesting B800-850 alpha and B870 alpha polypeptides was found to be exposed on the periplasmic surface of the membrane. A total of 9 and 13 amino acyl residues were cleaved from the B800-850 alpha and B870 alpha polypeptides, respectively, when spheroplasts were treated with proteinase K. The N-terminal regions of the alpha polypeptides were not digested in either membrane preparation and were apparently protected from proteolytic attack. Seven N-terminal amino acyl residues of the B800-850 beta polypeptide were removed after the digestion of chromatophores. C-terminal residues were not removed after the digestion of chromatophores or spheroplasts. The C termini seem to be protected from protease attack by interaction with the membrane. Therefore, the N-terminal regions of the beta polypeptides are exposed on the cytoplasmic membrane surface. The C termini of the beta polypeptides are believed to point to the periplasmic space.     

Expression, purification, and characterization of inactive human coagulation factor Xa (Asn322Ala419).

We have expressed in Chinese hamster ovary cells a catalytically inactive form of human factor Xa (factor rXai). A recombinant precursor of human factor Xa was inactivated by two point mutations in the serine protease catalytic triad, Asp322Asn and Ser419Ala. A two-step purification to homogeneity of the secreted material involved immunoaffinity followed by heparin-agarose chromatography. Two forms were identified; a fully processed dimer (70%) and a partially processed monomer (30%). Limited N-terminal amino acid sequencing of factor rXai detected the predicted residues and gamma-carboxyglutamic acid content was 90% of human plasma control. Although devoid of measurable proteolytic activity, factor rXai competitively inhibited plasma factor Xa assembly into functional prothrombinase complexes (Ki = 3 x 10(-10) M). Factor rXai also inhibited plasma clotting in a dose-dependent manner. The possible use of recombinant catalytically inactive proteins as a general approach for pharmacological regulation of human diseases is discussed.     

cDNA cloning of granzyme C, a granule-associated serine protease of cytolytic T lymphocytes

A cDNA clone corresponding to the complete amino acid sequence of a putative protease CCP2 of murine cytotoxic T lymphocytes was isolated and sequenced. The clone encodes a 248-residue long serine esterase. The deduced N-terminal amino acid sequence is identical over 40 residues to that of granzyme C, a protease of unknown function present in granules of cytotoxic lymphocytes. Analysis of the sequence of granzyme C/CCP2 reveals high homology to other granzyme proteases, i.e. granzyme A (40%) and granzyme B (67%) and to rat mast cell protease II (46%). The amino acids lining the specificity pocket are well conserved between granzyme B, C, and rat mast cell protease II, but not granzyme A, suggesting a similar general specificity of these three proteases.     

Isolation and nucleotide sequence of cDNA clone for bovine pancreatic anionic trypsinogen. Structural identity within the trypsin family.

A cDNA clone encoding an anionic form of bovine trypsinogen was isolated from a pancreatic cDNA library. The corresponding 855-nucleotide mRNA contains a short 5' noncoding region of 8 nucleotides and a long 3' noncoding region of 56 nucleotides in addition to a poly(A) tail of at least 50 nucleotides. The deduced amino acid sequence for the anionic pretrypsinogen (247 residues) includes the N-terminal 15-amino-acid signal peptide followed by an 8-amino-acid activation peptide. The zymogen (232 residues) contains an additional C-terminal serine, compared with the amino acid sequence of bovine cationic trypsinogen. The identity between the anionic and cationic forms of bovine trypsinogen (65%) is lower than that existing between the anionic protein and other mammalian anionic trypsinogens (73-85%), suggesting that trypsin gene duplication in mammals occurred prior to the evolutionary events responsible for the species divergence. Bovine pancreatic anionic trypsin possesses all the key amino acids characteristic of the serine protease family.