Characterization and purification of a protease in serum that cleaves proatrial natriuretic factor (ProANF) to its circulating forms

Atrial natriuretic factor (ANF) is synthesized and stored in atrial cardiocytes as a 17-kilodalton (kDa), 126 amino acid polypeptide, proANF, but circulates as smaller, 24 and 28 amino acid peptide fragments of the carboxy terminus of proANF. It has previously been shown that proANF is secreted intact from cultured atrial cardiocytes and can be cleaved by a serum protease to smaller, 3-kDa peptides believed to be the circulating forms. This report describes the purification and characterization of this proANF-cleaving protease from rat serum. The cleavages both of 35S-labeled proANF derived from rat atrial cell cultures, as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE)/autoradiography, and of a synthetic p-nitroanilide-containing substrate were used as assays for the detection of enzyme activity. ProANF-cleaving activity was found in rat serum, with no such activity detectable in rat plasma. Cleavage in serum was not dependent on the presence of platelets or other cellular elements. Complete inhibition of proANF cleavage was obtained with the protease inhibitors benzamidine, leupeptin, phenylmethanesulfonyl fluoride, and diisopropyl fluorophosphate (DFP) but not with aprotinin, soybean trypsin inhibitor, pepstatin, or hirudin. Unlike the vitamin K dependent plasma proteins, the proANF-cleaving protease did not adsorb to barium sulfate. With the sequential application of ion-exchange, hydroxylapatite, lectin affinity, and gel filtration chromatography, a 5000-6000-fold purification of the enzyme from rat serum was achieved. Fractionation of either whole serum or the purified enzyme by gel filtration chromatography revealed a single peak of activity corresponding to a protein with a Stokes radius of 45 A.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and characterization of protease do from Escherichia coli, a large serine protease containing multiple subunits

A new cytoplasmic proteolytic enzyme in Escherichia coli, named protease Do, has been purified to near homogeneity. The enzyme is an endoprotease that degrades casein, denatured bovine serum albumin, and globin but shows little or no hydrolytic activity against insulin, growth hormone, native bovine serum albumin, or a variety of commonly used peptide substrates. The molecular size of the enzyme was large, and it could be isolated in different preparations in either of two forms. One showed a molecular weight of about 500,000 on gel filtration and a sedimentation coefficient of 15.9 S on sucrose gradient centrifugation. The other appeared to be about 300,000 and sedimented at 12.7 S. No interconversion between the two forms and no other difference in the properties was found. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS) shows that both forms contain a major 54,000-dalton band and three additional minor polypeptides with molecular weights of 45,000, 44,000, and 42,000. These minor polypeptides appear to result from autolytic degradation of the major protein as demonstrated by peptide mapping with Staphylococcus aureus V8 protease. Thus, protease Do appears to contain a single subunit of 54,000, and can exist either as a decamer or as a hexamer or pentamer. The enzyme is a serine protease. It is sensitive to diisopropyl fluorophosphate (DFP) but not to metal chelating agents, sulfhydryl blocking groups, certain chloromethyl ketones, or various peptide aldehyde inhibitors. The enzyme covalently binds [3H]DFP, and the labeled subunit was visualized on SDS-polyacrylamide gels by fluorography. When cells growing in rich broth enter stationary phase, the relative concentration of protease Do increases more than twofold.     

A unique trypsin-like protease associated with plasma membranes of rat liver

One way in which serum promotes survival of primary cultured hepatocytes is by inhibiting plasma membrane protease (Nakamura, T., Asami, O., Tanaka, K., and Ichihara, A. (1984) Exp. Cell Res. 155, 81-91). One of these proteases was solubilized from the plasma membranes of rat liver with 4% octyl glucoside and purified to a homogeneous state by affinity chromatography on bovine pancreatic trypsin inhibitor linked to Sepharose 4B. The protease had an apparent Mr = 120,000 by Sephacryl S-200 gel filtration and the Mr of its subunits was 30,000, as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. It appeared to be a glycoprotein. A high concentration of detergent was necessary to keep the protein soluble. The purified enzyme readily hydrolyzed synthetic tripeptide nitroanilides at sites adjacent to Arg or Lys residues, but did not degrade synthetic substrates of chymotrypsin, elastase, or aminopeptidase. It showed endopeptidase activity, hydrolyzing various proteins such as casein, hemoglobin, and denatured albumin. The enzyme was strongly inhibited by diisopropyl fluorophosphate, phenylmethanesulfonyl fluoride, bovine pancreatic trypsin inhibitor, leupeptin, antipain, and alpha 1-antitrypsin, but not by chymostatin, elastatinal, or inhibitors of carboxyl, thiol, or metallo proteases, suggesting that it is a seryl trypsin-like protease. This protease was found in plasma membranes of rat and mouse liver and in small amounts in those of kidney, but not in those of brain, red cells, Ehrlich ascites tumor, or two Morris hepatomas, suggesting that it may be involved in differentiated functions of normal hepatocytes.     

A high molecular weight protease in liver cytosol.

A high molecular weight (greater than 400,000) protease active with [3H]leucine-labeled globin has been found in the postmicrosomal fraction of mouse kidney, brain, heart, spleen, and tumor cells and is most active in liver. The presence in liver was unexpected because liver cytosol is very ineffective in the breakdown of endogenous, labeled proteins. The enzyme has a number of properties that distinguish it from known cathepsins in addition to its high molecular weight. It is most active at pH approximately 7.5. When purified, it is unstable above 20 degrees C and is stabilized by metal chelating agents such as citrate, creatine-P, and glycerate-3-P. It is an -SH protease, but its thermal instability is not affected by 1 mM dithiothreitol. The enzyme is not lysosomal.     

A processing enzyme for prorenin in mouse submandibular gland. Purification and characterization

Renin is produced from an inactive precursor, prorenin, through proteolytic cleavage at paired basic amino acid residues. In this study, an enzyme which specifically cleaves mouse Ren 2 prorenin at the paired basic residues has been purified from mouse submandibular gland by CM-Toyopearl chromatography, antipain-Sepharose chromatography, and isoelectric focusing. This enzyme, named prorenin converting enzyme, consists of two polypeptide chains of 17 and 10 kDa. The enzyme has an isoelectric point of 9.5-9.8, and its pH optimum is between 7.5 and 8.5. It specifically cleaves the peptide bond on the carboxyl side of the Arg at the Lys-Arg pair of mouse Ren 2 prorenin to yield mature renin but does not cleave mouse Ren 1 and human prorenins. Studies on the effects of inhibitors indicate that this enzyme is a serine protease that differs from the enzymes processing other prohormones at paired basic amino acid residues.     

Characterization of an endopeptidase of Trypanosoma brucei brucei.

A soluble 80-kDa endopeptidase has been isolated from Trypanosoma brucei brucei. The enzyme, which has a pI 5.1, is optimally active at about pH 8.2 and has apparent pKa values of 6.0 and greater than or equal to 10. It is inhibited by the serine protease inhibitor diisopropylfluorophosphate and by the serine protease mechanism-based inhibitor 3,4-dichloroisocoumarin. Unexpectedly, the enzyme is inhibited by the cysteine protease inhibitor benzyloxycarbonyl-Leu-Lys-CHN2 but not by the related diazomethane, butoxycarbonyl-Val-Leu-Gly-Lys-CHN2, nor by other cysteine protease specific compounds. Specificity studies with a variety of amidomethylcoumaryl (AMC) derivatives of small peptides show that the enzyme has a highly restricted trypsin-like specificity. The best substrate, based on the magnitude of kcat/Km, was benzyloxycarbonyl-Arg-Arg-AMC; other good substrates were benzyloxycarbonyl-Phe-Arg-AMC, benzoyl-Arg-AMC, and compounds with Arg at P1 and Ala or Gly at P2. The hydrolysis of most substrates obeyed classical Michaelis-Menton kinetics but several exhibited pronounced substrate inhibition. The enzyme did not activate plasminogen nor decrease blood clotting time; it was inhibited by aprotinin but not by chicken ovomucoid. We conclude that the enzyme is a trypsin-like serine endopeptidase with unusually restricted subsite specificities.     

Collagenase activity in cultures of rat prostate carcinoma.

A specific collagenase (EC 3.4.24.3) has been found and purified from serum-free culture medium of 11095 epidermoid carcinoma of rat prostate. The molecular weight of this collagenase was estimated at 71 000 and the pH optimum was approx. 7. At 26 degrees C, the collagenase cleaved collagen at a site 3/4 the length from the N-terminus. At 37 degrees C, this collagenase degraded collagen to smaller peptides. The enzyme activity was inhibited by serum, cysteine and EDTA, but not by protease inhibitors. The presence of collagenase in rat tumor tissue suggests that this enzyme might play a significant role in tissue invasion by cancer cells.     

A fibrinolytic metalloprotease from the fruiting bodies of an edible mushroom, Armillariella mellea

A fibrinolytic metalloprotease has been purified from the fruiting bodies of the edible honey mushroom (Armillariella mellea). The enzyme has a molecular weight of 18538.1508, as measured by MALDI-TOF mass spectrometry and includes Zn2+ ion as found by ICP/MS. The N-terminal amino acid sequence, XXYNGXTXSRQTTLV, do not match any known protein or open reading frame. It hydrolyzes fibrinogen as well as fibrin, but does not show any proteolytic activity for other blood proteins such as thrombin, human albumin, bovine albumin, human IgG, hemoglobin, or urokinase. This protease hydrolyzes both A alpha and B beta subunits of human fibrinogen with equal efficiency. The enzyme activity was strongly inhibited by EDTA and 1,10-phenanthroline, indicating that the enzyme is a metalloprotease. No inhibition was found with PMSF, E-64, pepstatin, and 2-mercaptoethanol. The activity of the purified enzyme was slightly increased by Mg2+, Zn2+, and Co2+, but the enzyme was totally inhibited by Hg2+. It has broad substrate specificity for synthetic peptides, and a pH optimum at 7, suggested that the purified enzyme was a neutral protease. It was thermally stable up to 60 degrees C and the maximum fibrinolytic activity was at 55 degrees C.     

Natural antibodies against bone marrow cells of a concordant xenogeneic species

Hyperacute rejection does not occur when vascularized organs are transplanted between rat and mouse, and this species combination is considered to be concordant. Since hyperacute rejection is believed to reflect the presence of pre-existing antibodies (usually of the IgM class), and lymphocytotoxic antibodies against rat cells have not been detected in normal mouse sera, it has previously been concluded that mouse anti-rat natural antibody (NAb) does not exist. However, studies have not been reported in which rat bone marrow cells (BMC) were used as targets for evaluation of normal mouse sera. Because previous work from our and other laboratories has shown that bone marrow chimerism in the rat into mouse species combination can be achieved only by transplanting large numbers of rat BMC, we have evaluated normal mouse sera for the presence of NAb against rat BMC that might explain these in vivo results. Fisher 344 rat BMC and spleen cells were incubated with serum from nonimmunized mice, then stained with fluoresceinated rat anti-mouse subclass-specific secondary reagents and analyzed using flow cytometry. NAb of the IgM and IgG3 classes were found that bound strongly to rat BMC but showed weak or absent binding to spleen cells. A low level of IgG2b binding was observed to both BMC and spleen cells. Cytotoxic activity was detected against rat BMC but not against spleen cells. The environment in which the animals were maintained played a significant role in determining the level of cytotoxic NAb in normal mouse sera. Our results are consistent with the possibility that bone marrow-specific NAb play a role in resisting engraftment of BMC across this species barrier.     

Determination of protease activity in blood and microorganisms

A protease activity may be determined by means of immunoglobulins. Since proteolytic products apparently do not retain antigenic determinants of the initial substrate, the monitoring of enzymatic process may employ ELISA methods. The ELISA determination of functional activity of specific IgA1 protease has been used not only for detection of this enzyme, but also for measurement of its inhibition constants. IgG adsorbed onto a microplate was used for evaluation of total proteolytic activity. Varying pH values of the reaction medium it is possible to measure activity of neutral, alkaline and acid proteases. This approach was used for estimation total proteolytic activity of neutral proteases in blood serum. Due to high sensitivity of this method it was possible to dilute serum up to the level when serum inhibitors had not blocked enzyme activity. Assay of serum enzyme activity at acidic pH results in activation of pepsinogens and determination of pepsin activity. Measurement of a total level of serum pepsinogen activity may have diagnostic importance in gastroenterology, due to decisive contribution of pepsinogen I to the detectable activity.     

A lymph node neutral proteinase acting on myelin basic protein

A neutral protease present in inguinal and popliteal lymph nodes of rats with acute experimental allergic encephalomyelitis (EAE), rats injected with Freund's adjuvant, and rats that are normal has been found to hydrolyze basic protein present in purified brain and spinal cord myelin. The enzyme has been enriched by ammonium sulfate precipitation, and its properties have been studied. The protease activity toward different substrates was very specific and decreased in the following order: Protamine sulfate = polylysine (MW 183,000) > myelin basic protein > histone > polylysine (MW 2000) > polyarginine > cytochrome c. Other proteins including casein, freshly denatured hemoglobin, egg albumin, bovine serum albumin, and ribonuclease were ineffective as substrates. The pH curve showed a peak at pH7 for rat myelin, isolated beef basic protein, and histone. A possible role for this enzyme in demyelination in acute experimental allergic encephalomyelitis is suggested.     

Characterization of a neutral protease from lysosomes of rabbit polymorphonuclear leucocytes

1. The subcellular distribution has been investigated of a protease from rabbit polymorphonuclear leucocytes, obtained from peritoneal exudates. The enzyme, optimally active between pH7.0 and 7.5, hydrolyses histone but not haemoglobin, sediments almost exclusively with a granule fraction rich in other lysosomal enzymes, and is latent until the granules are disrupted by various means. 2. Enzymic analysis of specific and azurophilic granules separated by zonal centrifugation showed that neutral protease activity was confined to fractions rich in enzymes characteristic of azurophile granules. 3. Recovery of neutral protease activity from subcellular fractions was several times greater than that found in whole cells. This finding was explained by the presence of a potent inhibitor of the enzyme activity in the cytoplasm. 4. The effect of the inhibitor was reversed by increasing ionic strength (up to 2.5m-potassium chloride) and by polyanions such as heparin and dextran sulphate, but not by an uncharged polymer, dextran. 5. The enzyme was also inhibited, to a lesser extent, by 1-chloro-4-phenyl-3-l-toluene-p-sulphonamidobutan-2-one, soya-bean trypsin inhibitor and in-aminohexanoate (in-aminocaproate). 6. The granule fractions failed to hydrolyse artificial substrates for trypsin and chymotrypsin. 7. Partial separation of the enzyme was achieved by Sephadex gel filtration at high ionic strength and by isoelectric focusing. The partially separated, activated enzyme showed an approximately 300-fold increase in specific activity over that in whole cells.     

Identification of a plasma gelatinase in preparations of fibronectin

Preparations of fibronectin purified from human plasma according to conventional methods was found to contain a latent gelatinolytic activity. The protease was activated by exposure to trypsin or electrophoresis in sodium dodecyl sulfate. Zymography of the enzyme under nonreducing conditions gave an estimated Mr of 72,000. Reducing agents destroyed the activity of the enzyme. The gelatinase co-purified with fibronectin in chromatography on Sepharoses conjugated with gelatin, arginine, and heparin but could be separated from fibronectin by gel filtration in a physiological buffer. This protease was found to be a normal constituent of plasma and was probably not derived from the blood cells since the 72-kDa protease was not detected in lysates of these cells.     

Purification and Some Properties of a Protease from the Sarcocarp of Musk Melon Fruit

A protease has been purified from sarcocarp of musk melon, Cucumis melo ssp. melo var. reticulatus Naud. Earl’s Favourite. The protease was mostly present in the placenta part of the fruit and next in the inside mesocarp. The molecular mass of the enzyme was estimated to be about 62kDa on SDS-PAGE. The enzyme had a carbohydrate moiety. The optimum pH of the enzyme was 11 at 35°C using casein as a substrate. The enzyme was stable between pH 6 and 11. The enzyme was strongly inhibited by diisopropyl fluorophosphate, but was not inhibited by EDTA or cysteine protease inhibitors. From the digestion of Ala-Ala-Pro-X-pNA (X = Phe, Leu, Val, Ala, Gly, Lys, Glu, Pro, and diaminopropionic acid (Dap) substrates the specificity of the protease was found to be approximately broad, but the preferential cleavage sites were C-terminal sites of hydrophobic or acidic amino acid residues at P, position. It was proved that the enzymatic properties of musk melon protease are similar to those of cucumisin [EC 3.4.21.25]. The enzyme was not inhibited by typical proteinous inhibitors such as STI or ovomucoid. Therefore, this enzyme seems to be a useful protease for the food industries.     

Characteristics, isolation and role in the infectious process of Pseudomonas aeruginosa protease

Pseudomonas aeruginosa produces the extracellular enzyme protease, which plays an important role in the development of the infectious process caused by this microorganism. Protease is produced in three types, I, II and III, with protease II being responsible for 75% of the total proteolytic activity of protease. The molecular mass of protease II has been determined by different methods; the values obtained are 23000 and 39500. This discrepancy may be associated with an autodigestion of the enzyme or with the presence in the periplasm of its producer of a nonactive precursor whose activation may lead to a change in the molecular mass. Pseudomonas aeruginosa protease is capable of cleaving high-molecular proteins into low-molecular ones, which are taken up by the microbial cell and serve as a source of nutrition. When injected into the bloodstream of animals, purified protease produces haemorrhagic lesions in internal organs; its subcutaneous injection provokes haemorrhage in the skin and subcutaneous tissues. Manifestation of high P. aeruginosa virulence on a model of burnt mouse skin requires that not only exotoxin A but also protease be produced. The protease is immunogenic and has, in toxoid form, been used experimentally in a multicomponent vaccine.     

Protein A-binding immunosuppressive mouse serum factors

Summary In this study protein A of Staphylococcus aureus has been used to isolate an immunosuppressive component present in mouse serum. The suppressive effect of mouse serum on lymphocyte activation was partially abrogated by prior adsorption on protein A, and also by ammonium sulfate precipitation or specific immune precipitation with anti-IgG but not with anti-IgM. Protein A-binding material was isolated after chromatography on protein A-Sepharose and studied in spleen cell cultures. Protein A eluates from normal or NZB/NZW mice were found to suppress concanavalin A (Con A)-activated normal mouse spleen cells, and suppression was more potent with NZB/NZW serum isolates. Suppressive activity was dependent upon the dose of eluate added to cell cultures. The suppressive effect of NZB/NZW protein A-binding material was apparent in both Con A- and lipopolysaccharide (LPS)-stimulated normal mouse spleen cells, and required early addition to the cell cultures or preincubation with target lymphocytes. The suppressive activity was not detectably cytotoxic during a suppressive preincubation period. The possible relevance of these observations to experimental strategies in tumor immunotherapy is discussed.     

Differentiation of BC3H1 and primary skeletal muscle cells and the activity of their endogenous insulin-degrading enzyme are inhibited by the same metalloendoprotease inhibitors

Upon reduction of serum in their media, mouse BC3H1 muscle cells withdraw from the cell cycle and begin to differentiate. In differentiating cells, the induction of muscle-specific genes is accompanied by a distinct morphological chance. However, differentiated BC3H1 cells do not fuse with each other; they remain mononucleated. Metalloendoprotease inhibitors selectively block the differentiation of BC3H1 cells while inhibitors of other protease types are ineffective. In these cells, the degradation of the internalized insulin is initiated by a 110 kDa, non-lysosomal protease known as the insulin-degrading enzyme. The same metalloendoprotease inhibitors that block BC3H1 differentiation also inhibit, with a similar specificity and potency, the in vitro and the in vivo degradation of insulin by the insulin-degrading enzyme. When the serum in the medium is reduced, the activity of the insulin-degrading enzyme in the cell cytoplasm increases rapidly. This increase precedes any detectable change in the differentiation state of these cells by about 12 hours. These results, together with very similar ones obtained with primary rat skeletal muscle cells, support our earlier proposal that the insulin-degrading enzyme is the metalloendoprotease involved in the initiation of the morphological and biochemical differentiation of muscle cells in culture.     

Trypsin-like hatching protease from mouse embryos: evidence for the presence in culture medium and its enzymatic properties

Enzymatic properties of a protease involved in hatching of mouse embryos were examined. A trypsin-like protease, which most efficiently hydrolyzed t-butoxycarbonyl-Leu-Ser-Thr-Arg-4-methylcoumaryl-7-amide, was demonstrated in culture medium of mouse hatching embryos. The enzyme was strongly inhibited by diisopropyl fluorophosphate, phenylmethanesulfonyl fluoride, leupeptin, antipain, N alpha-tosyl-L-lysyl-chloromethane, soybean trypsin inhibitor, and Trasylol, but not or weakly inhibited by p-chloromercuribenzoic acid, EDTA, E-64, pepstatin, chymostatin, and bestatin, suggesting a trypsin-like serine proteinase. The protease activity in the medium gradually elevated during the course of hatching, whereas the embryo-associated activity showed no significant change. Furthermore, pyroglutamyl-Leu-argininal, the strongest inhibitor for the enzyme among peptidyl argininals, all of which are potent trypsin inhibitors, showed the strongest inhibition toward hatching. Thus, a trypsin-like protease secreted from hatching embryos into the culture medium may participate in mouse hatching, probably as a hatching enzyme.     

Immunocytochemical localization of the 35-kDa sea urchin egg trypsin-like protease and its effects upon the egg surface

Trypsin-like protease in sea urchin eggs is thought to reside in cortical granules since it is secreted at fertilization and has been isolated with cortical granule fractions from unfertilized eggs. A 35-kDa serine protease has been purified from Strongylocentrotus purpuratus eggs by soybean trypsin inhibitor-affinity chromatography. For this report the protease was localized by immunocytochemistry before and after fertilization, and its potential biological activity was examined by application of the isolated enzyme to the unfertilized egg surface. The protease was localized on sections by immunofluorescence and immunoelectron microscopy, and was found to reside in the spiral lamellae of S. purpuratus cortical granules and in the electron-dense stellate core of Arbacia punctulata granules. At fertilization the enzyme is secreted into the perivitelline space and accumulates only very briefly between the hyaline layer and the nascent fertilization envelope. Shortly thereafter the enzyme is lost from the perivitelline space and immunological reactivity is no longer associated with the egg surface. The 35-kDa cortical granule protease has vitelline delaminase activity but does not appear to destroy vitelline envelope sperm receptors as judged by the fertility of protease-treated eggs.     

Purification and properties of the thermostable acid protease of Penicillium duponti.

An acid protease produced by the thermophilic fungus Penicillium duponti K 1014 has been purified by consecutive ion-exchange and gel permeation chromatography, and crystallized from aqueous acetone solution. The purified endopeptidase gave a symmetrical schlieren peak by sedimentation velocity, and was found to be homogeneous upon disc gel electrophoresis at pH 9.5. The enzyme was most active at pH 2.5 against milk casein and showed high thermostability. An isoelectric point of 3.81 was found by isoelectric focusing. A minimum molecular weight of 41 590 was calculated from the amino acid composition, adopting an arginine content of one residue per mole of enzyme. This minimum molecular weight is in good agreement with the value of 41 000 previously found by gel permeation (Hashimoto, H., Iwaasa, T., and Yokotsuka, T. (1973), Appl. Microbiol. 25, 578). Besides the thermostability, the purified P. duponti protease differs from other well-characterized acid proteases in that it contains carbohydrate, 4.33% expressed as glucose. The enzyme was not affected by p-bromophenacyl bromide, but was completely inactivated by alpha-diazo-p-bromoacetophenone, diazoacetyl-DL-norleucine methyl ester, and diazoacetylglycine ethyl ester, in the presence of Cu2+. The complete inactivation of the protease by diazoacetyl-DL-norleucine methyl ester resulted in the specific incorporation of 1 mol of norleucine/mol of enzyme. On the basis of similar behavior of other acid proteases toward this inactivator, the results suggest the presence at the active site of an unusually reactive carboxyl group, involved in the catalytic function. The naturally occurring pepsin inhibitor of Streptomyces naniwaensis [Murao, S., and Satoi, S. (1970), Agric. Biol. Chem. 34, 1265] inhibited also the protease, at a threefold molar excess with respect to the enzyme.