The isoinhibitors of chymotrypsin/elastase from Ascaris lumbricoides: the reactive site

Five isoinhibitors of chymotrypsin/elastase present in aqueous extracts of Ascaris were isolated. The reactive site in each isoinhibitor, the peptide bond that during encounter is positioned over the catalytic site in chymotrypsin, is Leu-Met. This bond was hydrolyzed by incubating intact isoinhibitors with 5-25 mol% chymotrypsin at pH 3.2 for 4-6 days (isoinhibitor 1) or 2.5-5 weeks (isoinhibitors 2-5). The reaction under these conditions did not proceed beyond 60% modified isoinhibitor (peptide bond hydrolyzed) and 40% intact inhibitor. The Leu-Met bond, hydrolyzed in modified isoinhibitor, can be resynthesized at pH 7.6 by incubating modified inhibitor with a stoichiometric amount of chymotrypsin bound to Sepharose CL-4B and then dissociating the complex in a kinetically controlled fashion with 5% trichloroacetic acid. The product, intact inhibitor, was obtained in greater than 80% yield. The site in the isoinhibitor that is positioned over the catalytic site in elastase during encounter is the same as for encounter with chymotrypsin. The Leu-Met bond hydrolyzed during encounter with elastase can be resynthesized by chymotrypsin. Chymotrypsin and elastase bind to the inhibitor at the same site.     

The isoinhibitors of chymotrypsin/elastase from Ascaris lumbricoides: isolation by affinity chromatography and association with the enzymes

Five isoinhibitors, proteins that inactivate chymotrypsin and elastase, were isolated from aqueous extracts of the intestinal parasite Ascaris lumbricoides var. suum by affinity chromatography. They were named in the order that they eluted from a CM-Sephadex C-25 column at pH 8.6 using a salt gradient. Isoinhibitor 1, first reported in this paper, is anionic on polyacrylamide gel electrophoresis at pH 9.3. The other four isoinhibitors are cationic on electrophoresis at pH 9.3, separable from each other, and identical with those reported previously [R.J. Peanasky and G. M. Abu-Erreish (1971) in Proceedings International Research Conference on Proteinase Inhibitors (Fritz, H., and Tschesche, H., eds.), pp. 281-293, de Gruyter, New York]. Amino acid compositions show differences between the isoinhibitors. Antibody to isoinhibitor 1 reacts with its self-antigen only. Antibody to isoinhibitor 5 reacts with isoinhibitors 2-5 but not with isoinhibitor 1. Association equilibrium constants show that each of the isoinhibitors interacts most avidly with alpha-chymotrypsin. For isoinhibitor 1, the K alpha for alpha-chymotrypsin was 2.6 X 10(11) M-1, for porcine elastase I 1.6 X 10(10) M-1, and for Subtilisin Carlsberg 3.3 X 10(7) M-1. For isoinhibitors 2-5, the K alpha ranges were 7.1 X 10(10) to 1.3 X 10(11) M-1 for alpha-chymotrypsin, 1.0 X 10(9) to 5.6 X 10(9) M-1 for porcine elastase I, and 6.0 X 10(8) to 1.3 X 10(9) M-1 for subtilisin Carlsberg. Because of the strong affinity of these inhibitors for alpha-chymotrypsin and elastase, two proteins in the normal environment of the nematode, the name isoinhibitors of chymotrypsin/elastase is suggested for these proteins.     

Purification and properties of protease F, a bacterial enzyme with chymotrypsin and elastase specificities

It has been previously demonstrated that commercial bacterial fibrinolysin (EC 3.4.21.7) selectively cleaves the bond between Met-53 and Ala-54 in ovine prolactin (199 amino acids). A one-step purification procedure on DEAE-cellulose for Protease F, which is the active component of bacterial fibrinolysin, and properties of the purified enzyme are reported. The enzyme is homogeneous as judged by acrylamide gel electrophoresis. Its molecular weight, calculated from gel filtration experiments on Sephadex G-100, is around 13,800. Amino acid analyses do not reveal the presence of any half-cystines. The presence of one tryptophan residue per enzyme molecule was resolved from the fluorescence spectrum. Amino terminal analysis showed that leucine was at the amino terminal position. Protease F hydrolyzes casein and synthetic specific substrates for chymotrypsin and elastase esterases but not for trypsin esterases. It is fully inhibited by phenylmethylsulfonyl fluoride, by chicken ovoinhibitor, and by Chymotrypsin Inhibitor I from potatoes but not by the trypsin-chymotrypsin inhibitors from soybeans and chick peas or by tosyl-L-phenylalanine chloromethyl ketone. The enzyme is stable at room temperature and in the cold, it is not affected by dialysis or by freezing and thawing, but it is inactivated during freeze-drying. The circular dichroism spectra of Protease F indicate an approximate 20% alpha-helix content of the enzyme with a considerable similarity to those of subtilisin, elastase, and beta-trypsin. The relatively low molecular weight of Protease F, the absence of intrachain disulfide bridges, and the fact that it is inhibited by several, but not all, chymotrypsin inhibitors suggest that it may differ phylogenetically from the known serine proteases.     

Complete primary structure of ribulosebisphosphate carboxylase/oxygenase from Rhodospirillum rubrum

Of the 14 cyanogen bromide fragments derived from Rhodospirillum rubrum ribulosebisphosphate carboxylase/oxygenase, four are too large to permit complete sequencing by direct means [F. C. Hartman, C. D. Stringer, J. Omnaas, M. I. Donnelly, and B. Fraij (1982) Arch. Biochem. Biophys. 219, 422-437]. These have now been digested with proteases, and the resultant peptides have been purified and sequenced, thereby providing the complete sequences of the original fragments. With the determination of these sequences, the total primary structure of the enzyme is provided. The polypeptide chain consists of 466 residues, 144 (31%) of which are identical to those at corresponding positions of the large subunit of spinach ribulosebisphosphate carboxylase/oxygenase. Despite the low overall homology, striking homology between the two species of enzyme is observed in those regions previously implicated at the catalytic and activator sites.     

The primary structure of the COOH-terminal half of cholera toxin subunit A1 containing the ADP-ribosylation site

The sequence of 96 amino acid residues from the COOH-terminus of the active subunit of cholera toxin, A₁, has been determined as PheAsnValAsnAspVal LeuGlyAlaTyrAlaProHisProAsxGluGlu GluValSerAlaLeuGlyGly IleProTyrSerGluIleTyrGlyTrpTyrArg ValHisPheGlyValLeuAsp GluGluLeuHisArgGlyTyrArgAspArgTyr TyrSerAsnLeuAspIleAla ProAlaAlaAspGlyTyrGlyLeuAlaGlyPhe ProProGluHisArgAlaTrp ArgGluGluProTrpIleHisHisAlaPro ProGlyCysGlyAsnAlaProArg(OH). This is the largest fragment obtained by BrCN cleavage of the subunit A₁ (M_r 23,000), and has previously been indicated to contain the active site for the adenylate cyclase-stimulating activity. Unequivocal identification of the COOH-terminal structure was achieved by separation and analysis of the terminal peptide after the specific chemical cleavage at the only cysteine residue in A₁ polypeptide. The site of self ADP-ribosylation in the A₁ subunit [C. Y. Lai, Q.-C. Xia, and P. T. Salotra (1983) Biochem. Biophys. Res. Commun.116, 341–348] has now been identified as Arg-50 of this peptide, 46 residues removed from the COOH-terminus. The cysteine that forms disulfide bridge to A₂ subunit in the holotoxin is at position 91.     

Solid-phase immunoassay of dog neutrophil elastase

A sensitive and reliable method has been developed for the detection of dog neutrophil elastase using the amplified enzyme-linked immunosorbent assay. Purified neutrophil enzyme, inactivated by diisopropylfluorophosphate was adsorbed noncovalently to polystyrene tubes (11 × 55 mm) and immune rabbit serum was allowed to bind to antigen-sensitized tubes. Bound specific antibody was visualized by goat antirabbit immunoglobulin covalently lined to alkaline phosphatase, using p-nitrophenyl phosphate as the substrate. Increasing amounts of purified neutrophil enzyme or crude leukocyte extracts were quantitated by their ability to inhibit specific antibody uptake to polystyrene tubes. By this method, as little as 1 ng of enzyme/ml could be detected with a useful range of 5–100 ng of enzyme levels. Immunoreactive enzyme in a crude leukocyte extract was comparable to the quantily of enzyme as measured by proteolytic activity. The method described can be conveniently used to measure levels of immunoreactive enzymes in biological fluids of animals, with experimentally induced inflammatory conditions.     

The primary structure of ribosomal protein S7 from E. coli strains K and B.

Ribosomal proteins S7 from 30S subunits of Escherichia coli strains K and B differ extensively in their aminoacid compositions. The experimental details which led to the determination of the complete primary structures of proteins S7K and S7B are presented. Protein S7K consists of a single polypeptide chain of 177 aminoacids giving a calculated molecular weight of 19, 732, whereas protein S7B has 153 residues which amount to a molecular weight of 17,131. Aminoacid sequences were determined by a combination of automated Edman degradation of the intact proteins in a modified Beckman sequenator and sequencing of peptides obtained by digestion with trypsin. Staphylococcus aureus protease, thermolysin and pepsin, either by solid-phase Edman degradation or by dansyl-Edman degradation. Additional information about the primary structure was derived from peptides resulting from chemical cleavages of the protein by 2-(2-nitrophenyl-sulphenyl)-3-methyl 3' bromoindolenine at its tryptophanyl bonds and by cyanogen bromide at its methionyl bonds leading to large fragments. The mutational event occurring between S7B and S7K was characterized. Protein S7K contains an additional sequence of 24 aminoacids at its C-terminal end. The aminoacid sequence of both proteins S7K and S7B was compared to the published sequences of the other ribosomal proteins of Escherichia coli and predictions for the secondary structure of these proteins were made.     

The fine structure of the branched α-D-glucan from the blue-green alga Anacystis nidulans: comparison with other bacterial glycogens and phytoglycogen

The fine structure of the glycogen from the blue-green alga Anacystis nidulans has been examined. After selective hydrolysis of all (1→6)-α-D linkages by a bacterial isoamylase, the resulting mixture of linear chains was subjected to gel-permeation chromatography. For purposes of comparison, the glycogens from Escherichia coli and Arthrobacter sp., amylopectin, phytoglycogen from sweet corn, and shell-fish glycogen were treated similarly. The profiles of the unit chains of A. nidulans glycogen and phytoglycogen were closely similar. There was no close resemblance in the size distribution of unit chains for A. nidulans glycogen, other bacterial glycogens, and amylopectin.     

Human complex-forming glycoprotein, heterogeneous in charge: the primary structure around the cysteine residues and characterization of a disulfide bridge

L-929 cell surface membranes have been assayed in vitro and found to contain significant protein kinase activity. A steady-state kinetic analysis indicated that at least two distinct protein kinases were present. Plots of reaction velocity (v) against substrate (ATP) concentration were distinctly biphasic, as were Lineweaver-Burk plots of $\text{1}\text{v}$ versus $\text{1}\text{ATP}$. Michaelis constants of the two enzymes were calculated to be 22 and 173 μm, respectively. Sodium dodecyl sulfate polyacrylamide gel analysis of the phosphorylated membrane proteins provided additional support for the existence of more than one protein kinase. Different endogenous proteins were phosphorylated at 1 μm ATP compared to 1 μm ATP. Further studies of the low K_m (22 μm) enzyme suggested that it is a typical cyclic 3′,5′-AMP-independent protein kinase. Its activity was dependent on the presence of Mg²⁺, but it was not affected by cyclic 3′,5′-AMP, cyclic 3′,5′-GMP, or the heat-stable inhibitor of cyclic 3′,5′-AMP-dependent protein kinases. ATP and GTP, but not other nucleoside triphosphates, could serve as phosphoryl donor and maximum kinase activity was expressed at pH 7.0. Phosvitin and casein were superior to histones as exogenous substrates for the low K_m enzyme.     

Functionalized polymeric liposomes. Efficient immobilization of alpha chymotrypsin

A polymerizable phospholipid has been synthesized having a latent aldehyde moiety in the head group (1). Photopolymerized vesicles which have been prepared from this phosphatidylcholine have been successfully conjugated to alpha chymotrypsin. A high degree of loading was achieved with significant retention of enzymatic function.     

pH dependence of salt activation of human leukocyte elastase

The effects of pH on salt stimulation of the rates of hydrolysis of three substrates by human leukocyte elastase were studied. The enzyme was most active at pH 10.5, 8.0-8.5, and 9.5 for the hydrolyses of fluorescein isothiocyanate-labeled S-carboxymethylated bovine serum albumin (FITC-CM-BSA), succinyl-L-Ala-L-Pro-L-Ala-7-methylcoumaryl-4-amide (Suc-APA-MCA), and succinyl-L-Ala3-p-nitroanilide (Suc-Ala3-pNA), respectively, in the absence of NaCl. The enzyme was activated by 0.5 M NaCl similarly at all pHs tested for the hydrolysis of Suc-Ala3-pNA, but more at neutral and alkaline pH values, respectively, for the hydrolyses of FITC-CM-BSA and Suc-APA-MCA. Thus, in the presence of 0.5 M NaCl, the enzyme was most active at pH 8.0 and 10.0 with FITC-CM-BSA and Suc-APA-MCA, respectively. In contrast, the proteolytic activity of porcine pancreatic elastase was somewhat inhibited by 0.5 M NaCl.     

Esters of trehalose from Corynebacterium diphtheriae: A modified purification procedure and studies on the structure of their constituent hydroxylated fatty acids

The purification procedure of 6,6′-diesters of trehalose from Corynebacterium diphtheriae was modified and the isolated substance was analysed by mass spectrometry as its permethylated derivative. The fatty acid moiety released from the glycolipid after alkaline hydrolysis was studied by mass spectral analysis of the O-methylated and O-acetylated methyl ester derivatives. By argentation thin-layer chromatography, three species of O-acetylated methyl esters were recognized, corresponding to saturated, mono-unsaturated and di-unsaturated α-branched-β-hydroxylated fatty acids. The double bond was located by ozonolysis of the O-acetylated methyl ester derivatives, by gas chromatography of the reaction product and mass spectrometry of the effluent from the gas chromatograph. The main components of each species of α-branched-β-hydroxylated fatty acids found in the gly colipid fraction of C. diphtheriae were 2-tetradecyl-3-hydroxyoctadecanoic acid (C₃₂H₆₄O₃, corynomycolic acid), 2-tetradecyl-3-hydroxy-11-octadecenoic acid (C₃₂H₆₂O₃, corynomycolenic acid), 2-tetradec-7′-enyl-3-hydroxy octadecanoic acid (C₃₂H₆₂O₃) and 2-tetradec-7′-enyl-3-hydroxy-11-octadecenoic acid (C₃₂H₆₀O₃, corynomycoldienic acid). The glycolipid fraction from C. diphtheriae is obviously a complex mixture of 6,6′-diesters of trehalose.     

Inhibition of porcine elastase and anhydroelastase by boronic acids

An antiserum against bovine pancreatic trypsin inhibitor (bPTI) has been raised in rabbits. The antiserum does not cross-react with known pituitary hormones and other proteins. A specific radioimmunoassay for bPTI has been developed. The ED50 is about 250 fmol per assay tube and the sensitivity is reliable to 15 fmol per tube. Immunoreactivity could be detected in bovine and sheep pituitaries, bovine brain, and adrenal medulla, but not in human, pig, and rat pituitaries. In the bovine pituitary the immunoreactivity is restricted to the posterior lobe.     

Inhibition of chymotrypsin by alkyl phosphonates: a quantitative structure-activity analysis.

A quantitative structure-activity relationship has been formulated for 53 alkyl phosphonates [R₂OPO(CH₃)SR₃] inhibiting chymotrypsin: . In this so-called bilinear model, k_i is the bimolecular rate constant (m^?1 s^?1), β is a disposable parameter evaluated by a computerized iterative procedure, MR is the molar refractivity of a substituent, $\text{σ}{}_3{}^1$ is Taft's polar parameter, and I is an indicator variable for substituents containing a sulfonium group. The correlation coefficient for this equation is 0.985. This quantitative structure-activity relationship is compared with those previously formulated for the action of chymotrypsin on acylamino acid ester substrates.     

The effect of toluene on the structure and permeability of the outer and cytoplasmic membranes of escherichia coli

The effect of toluene on Escherichia coli has been examined. In the presence of Mg²⁺, toluene removes very little protein, phospholipid, or lipopolysaccharide from E. coli. In the absence of Mg²⁺, or in the presence of EDTA, toluene removes considerably more cell material, including several specific cytoplasmic proteins such as malate dehydrogenase (EC 1.1.1.37). In contrast, glucose-6-phosphate dehydrogenase (EC 1.1.1.49) and glutamate dehydrogenase (EC 1.4.1.4) are not released at all under the same conditions.Cells treated with toluene in the presence of Mg²⁺ remain relatively impermeable to pyridine nucleotides, while cells treated with toluene in the presence of EDTA become permeable to these compounds. Freeze-fracture electron microscopy shows that toluene causes considerable damage to the cytoplasmic membrane, while the outer membrane remains relatively intact. These results indicate that the permeability characteristics of toluene-treated cells depend at least partly on the state of the outer membrane after the toluene treatment.     

Rate enhancement by catalytic groups in enzymes. Imidazole catalysis of the hydrolysis of N,O-diacetylserinamide as a model for general base catalysis in chymotrypsin

An attempt to estimate the importance of general acid-base catalysis in enzymic catalysis has been made, using the hydrolysis of the ester group of N,O-diacetylserinamide as a model for the deacylation of acyl-chymotrypsins. General base catalysis of this reaction by imidazole is estimated to reduce the activation energy by at least 31 kJ mol^?1. The rate of reaction, however, is not greatly enhanced because of an unfavourable change in the entropy of activation from ?132 to ?197 JK^?1 mol^?1. At about 300 K, a typical temperature for enzyme-catalysed reactions, the reduction in activation energy would cause a rate enhancement of about 3 × 10⁵-fold if the unfavourable entropy change did not occur. For specific acyl-chymotrypsins the entropy of activation for deacylation is about ?89 J K^?1 mol^?1, allowing the full effect of general base catalysis by imidazole to be realized. It is, therefore, postulated that in the active site of an enzyme, a properly oriented imidazole side chain may catalyse the rate of a reaction 10⁵-fold by general base catalysis.     

Studies on a leukocyte elastase inhibitor present in the culture medium of inflamed synovial tissue

The spent medium of cultured inflamed synovial tissue contains a potent inhibitor of leukocyte elastase. This leukocyte elastase inhibitor has no effect on leukocyte cathepsin G and pancreatic elastase is only marginally affected. The inhibitor is a glycoprotein, stable to heat, acid and reductive alkylation. Pretreatment of the inhibitor with either trypsin or chymotrypsin results in its inactivation.     

Specific modification of the condensation domain of fatty acid synthase and the determination of the primary structure of the modified active site peptides

Fatty acid synthase from the uropygial gland of goose was inactivated by iodoacetamide with a second-order rate constant of 1.3 M-1 S-1 at pH 6.0 and 25 degrees C. Of the seven component activities of the synthase, only the condensation activity was significantly inhibited by iodoacetamide modification. Since preincubation of the enzyme with acetyl-CoA, but not with malonyl-CoA, protected the enzyme from inactivation by iodoacetamide, it is suggested that iodoacetamide probably modified the primer-binding thiol group at the condensation active site. Determination of the stoichiometry of modification was done using [1-14C]iodoacetamide that was purified by high-performance liquid chromatography. Graphical analysis of the data showed that binding of 1.2 carboxamidomethyl groups per subunit of fatty acid synthase would result in complete inhibition of the enzyme activity, suggesting that there is one condensation domain per subunit of fatty acid synthase. Analysis of the tryptic peptide map of the enzyme that was modified with [1-14C]iodoacetamide in the presence and absence of acetyl-CoA revealed that acetyl-CoA prevented the labeling of a major radioactive peptide and a minor radioactive peptide. These two peptides were purified by high-performance liquid chromatography. Amino acid analysis of these two peptides revealed that the major radioactive peptide contained S-carboxymethylcysteine while the minor radioactive peptide did not. However, the latter peptide contained beta-alanine, suggesting that this peptide was from the acyl carrier protein segment of fatty acid synthase and that the iodoacetamide treatment resulted in modification of the pantetheine thiol, although to a lower extent than the primer-binding thiol. The sequence of the primer-binding active site peptide from the condensation domain was H2N-Gly-Pro-Ser-Leu-Ser-Ile-Asp- Thr-Ala-Cys(carboxamidomethyl)-X-Ser-Ser-Leu-Met-Ala-Leu-Glu-Asn-A la-Tyr-Lys- COOH, the first reported sequence of the condensation active site from a vertebrate fatty acid synthase. The acyl carrier protein segment showed extensive sequence homology with the acyl carrier protein of Escherichia coli, particularly in the vicinity of the phosphopantetheine attachment, and the sequence was H2N-Asp-Val-Ser-Ser-Leu- Asn-Ala-Asp-Ser-Thr-Leu-Ala-Asp-Leu-Gly-Leu-Asp-Ser(4'-phosphopanteth ein e) -Leu-Met-Gly-Val-Glu-Val-Arg-COOH.