Characterization and comparison of midgut proteases of Bacillus thuringiensis susceptible and resistant diamondback moth (Plutellidae: Lepidoptera)

The midgut proteases of the Bacillus thuringiensis resistant and susceptible populations of the diamondback moth, Plutella xylostella L. were characterized by using protease specific substrates and inhibitors. The midgut contained trypsin-like proteases of molecular weights of 97, 32, 29.5, 27.5, and 25 kDa. Of these five proteases, 29.5 kDa trypsin-like protease was the most predominant in activation of protoxins of Cry1Aa and Cry1Ab. The activation of Cry1Ab protoxin by midgut protease was fast (T(1/2) of 23-24 min) even at a protoxin:protease ratio of 250:1. The protoxin activation appeared to be multi-step process, and at least seven intermediates were observed before formation of a stable toxin of about 57.4 kDa from protoxin of about 133 kDa. Activation of Cry1Aa was faster than that of Cry1Ab on incubation of protoxins with midgut proteases and bovine trypsin. The protoxin and toxin forms of Cry proteins did not differ in toxicity towards larvae of P. xylostella. The differences in susceptibility of two populations to B. thuringiensis Cry1Ab were not due to midgut proteolytic activity. Further, the proteolytic patterns of Cry1A protoxins were similar in the resistant as well as susceptible populations of P. xylostella.     

Isolation and characterization of a novel large protease accumulated in mammalian cells in the presence of inhibitors

We have isolated and characterized a novel, large, multicatalytic protease from mammalian cells. This protease was designated PABI (protease accumulated by inhibitors). When baby hamster kidney (BHK) cells were grown in medium containing leupeptin, a potent serine-cysteine protease inhibitor, the trypsin-like protease activity (PABI) in the cells increased its level more than 100-fold over the control. This increase was also observed in other cultured cells such as COS, HepG2, and skin fibroblast cells. The activity was also elevated by treatment with other protease inhibitors including chymostatin or trans-epoxysuccinyl-L-leucylamide-(4-guanidino)butane. Immunoblot analysis, by employing antisera prepared against the purified PABI, also showed a concomitant increase of this protein in BHK, COS, and HepG2 cells on leupeptin treatment. PABI was purified to a homogeneous state from leupeptin-treated BHK cells. PABI is a glycoprotein of molecular weight 700,000. PABI was found to be a multimer of a major subunit of apparent Mr of 84,000, as shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electron microscopic analysis. PABI dissociates into subunits only under reducing conditions in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. PABI has both trypsin-like and chymotrypsin-like protease activities toward synthetic substrates. Both activities were inhibited by phenylmethanesulfonyl fluoride, aprotinin, bovine pancreas trypsin inhibitor, and chymostatin. Leupeptin inhibited only the trypsin-like activity of PABI. p-Chloromercuribenzoate had no effect on either activity. Furthermore, PABI degraded collagen type I and fibronectin. These results indicate that PABI is a novel protease which differs from any known proteases including cytosolic high molecular weight proteases. The physiological function of PABI is yet to be determined.     

Nongranular proteolytic enzymes of rat IL-2-activated natural killer cells. I. Subcellular localization and functional role.

Our investigations indicate that a variety of neutral serine proteases exist in highly purified, IL-2-activated rat NK (A-NK) cells. These enzymatic activities are not restricted to only cytolysin-containing granules and are not defined by only the assay of N-alpha-benzyloxycarbonyl-L-lysine thiobenzylesterase activity. These activities, which we term A-NKP 1, A-NKP 2, A-NKP 3, and A-NKP 4, cleave, respectively, the following fluorogenic peptide substrates: Boc-Phe-Ser-Arg-7-amino-4-methylcoumarin (AMC, trypsin-like); Suc-Ala-Ala-Phe AMC (chymotrypsin-like); Suc-Gly-Pro-Leu-Gly-Pro AMC (collagenase-like), and Z-Phe-Arg AMC (another trypsin-like enzyme). The proteases A-NKP 1, A-NKP 2, and A-NKP 3 are not cell surface-associated and appear to be cytosolic as defined by isopycnic sucrose density gradient centrifugation. In contrast, A-NKP 4 appears to be located in lysosomes. Treatment of rat A-NK cells with protease inhibitors that inhibit A-NKP 2 and A-NKP 3 also substantially inhibit A-NK cell-mediated cytotoxicity against both NK-sensitive and -resistant targets (YAC-1 and P815, respectively). These results indicate that A-NKP2 and A-NKP 3 may play a role in IL-2-activated NK cell-mediated cytotoxicity. A variety of proteolytic enzymes, in addition to granzymes, therefore exist in A-NK cells. Our studies indicate that a prerequisite to a thorough understanding of the role of proteases in killer cell function is the investigation of several classes of enzymes in addition to granzymes contained in lytic granules.     

Proteases released from Xenopus laevis eggs at activation and their role in envelope conversion

During fertilization of the Xenopus laevis egg, the egg envelope is converted so that further sperm contact with the egg is prevented. In this study two envelope conversion reactions were investigated, envelope hardening and limited hydrolysis of two structurally related envelope glycoproteins. Both of these reactions were shown to be sensitive to protease inhibitors. In an attempt to identify egg proteases involved in envelope conversion, the medium around activated dejellied eggs was collected and analyzed. The exudate was able to convert isolated envelopes and, when the exudate was analyzed using peptide substrates, two major activities were found, one with a preference for cleavage after argininyl peptide bonds and one with a preference for phenylalaninyl peptide bonds. Analysis of exudate using SDS-polyacrylamide gel electrophoresis with gelatin cast into the gel showed two bands of proteolytic activity, one at Mr 45,000 that was identified as the trypsin-like activity and one at Mr 30,000 that was identified as the chymotrypsin-like activity. When cortical granule exocytosis was suppressed using ammonium chloride, release of the two exudate proteases was also suppressed. Studies of the envelope conversion reactions using protease inhibitors indicated that the chymotrysin-like protease was involved in envelope conversion once it had been activated by the trypsin-like protease.     

Purification and characterization of the cuticle-degrading protease produced by the entomopathogenic fungus,Beauveria bassiana in the presence of Sunn pest,Eurygaster integriceps (Hemiptera: Scutelleridae) cuticle

The extracellular protease from the entomopathogenic fungus, Beauveria bassiana in the presence of Eurygaster integriceps cuticle was isolated, purified and characterized. Isolate B1 of B. bassiana that shows high virulence against E. integriceps was examined for the production of the cuticle-degrading proteases. Results showed that both subtilisin-like (Pr1) and trypsin-like (Pr2) cuticle-degrading proteases were produced and the enzyme kinetic properties showed better activity of Pr1 in comparison with Pr2. The proteases were purified using acetone precipitation, Sephadex G-100 gel filtration and CM-Sepharose ion exchange chromatography, with a 5.09-fold increase in specific activity and 21.86% recovery. The enzyme molecular weight was estimated to be 47 kDa and the optimal pH and temperature were 8 and 45°C, respectively. The purified protease was activated by divalent cations, Ca^{2 +} and Mg^{2 +}, and inhibited by NaCl, KCl and determined as a serine protease by inhibition of its activity due to using PMSF, EDTA, mercaptoethanol and SDS. Studies on the timing of the protease secretion in the presence of cuticular substrates could provide information about the role of the accumulated hydrolytic enzymes during pathogenesis to better understand these processes.     

A blood meal-induced Ixodes scapularis tick saliva serpin inhibits trypsin and thrombin,and interferes with platelet aggregation and blood clotting

Ixodes scapularis is a medically important tick species that transmits causative agents of important human tick-borne diseases including borreliosis, anaplasmosis and babesiosis. An understanding of how this tick feeds is needed prior to the development of novel methods to protect the human population against tick-borne disease infections. This study characterizes a blood meal-induced I. scapularis (Ixsc) tick saliva serine protease inhibitor (serpin (S)), in-house referred to as IxscS-1E1. The hypothesis that ticks use serpins to evade the host’s defense response to tick feeding is based on the assumption that tick serpins inhibit functions of protease mediators of the host’s anti-tick defense response. Thus, it is significant that consistent with hallmark characteristics of inhibitory serpins, Pichia pastoris-expressed recombinant IxscS-1E1 (rIxscS-1E1) can trap thrombin and trypsin in SDS- and heat-stable complexes, and reduce the activity of the two proteases in a dose-responsive manner. Additionally, rIxscS-1E1 also inhibited, but did not apparently form detectable complexes with, cathepsin G and factor Xa. Our data also show that rIxscS-1E1 may not inhibit chymotrypsin, kallikrein, chymase, plasmin, elastase and papain even at a much higher rIxscS-1E1 concentration. Native IxscS-1E1 potentially plays a role(s) in facilitating I. scapularis tick evasion of the host’s hemostatic defense as revealed by the ability of rIxscS-1E1 to inhibit adenosine diphosphate- and thrombin-activated platelet aggregation, and delay activated partial prothrombin time and thrombin time plasma clotting in a dose-responsive manner. We conclude that native IxscS-1E1 is part of the tick saliva protein complex that mediates its anti-hemostatic, and potentially inflammatory, functions by inhibiting the actions of thrombin, trypsin and other yet unknown trypsin-like proteases at the tick–host interface.     

Molecular cloning of a multidomain cysteine protease and protease inhibitor precursor gene from the tobacco hornworm (Manduca sexta) and functional expression of the cathepsin F-like cysteine protease domain

A Manduca sexta (tobacco hornworm) cysteine protease inhibitor, MsCPI, purified from larval hemolymph has an apparent molecular mass of 11.5 kDa, whereas the size of the mRNA is very large (9 kilobases). MsCPI cDNA consists of a 9,273 nucleotides that encode a polypeptide of 2,676 amino acids, which includes nine tandemly repeated MsCPI domains, four cystatin-like domains and one procathepsin F-like domain. The procathepsin F-like domain protein was expressed in Escherichia coli and processed to its active mature form by incubation with pepsin. The mature enzyme hydrolyzed Z-Leu–Arg–MCA, Z-Phe–Arg–MCA and Boc–Val–Leu–Lys–MCA rapidly, whereas hydrolysis of Suc–Leu–Tyr–MCA and Z-Arg–Arg–MCA was very slow. The protease was strongly inhibited by MsCPI, egg-white cystatin and sunflower cystatin with K_i values in the nanomolar range. When the MsCPI tandem protein linked to two MsCPI domains was treated with proteases, it was degraded by the cathepsin F-like protease. However, tryptic digestion converted the MsCPI tandem protein to an active inhibitory form. These data support the hypothesis that the mature MsCPI protein is produced from the MsCPI precursor protein by trypsin-like proteases. The resulting mature MsCPI protein probably plays a role in the regulation of the activity of endogenous cysteine proteases.     

Characterization of bacterial proteases with a panel of fluorescent peptide substrates

Bacteria produce a range of proteolytic enzymes. In an attempt to detect and identify bacteria on the basis of their protease activity, a panel of protease substrates was investigated. Peptides conjugated to the fluorophore 7-amino-4-methylcoumarin (AMC) are well-established substrates for measuring protease activity. Although peptide-AMC substrates are generally not specific for a single protease, a unique pattern can be achieved for both highly specific enzymes and those with a broader substrate range by comparing different peptide substrates. The panel of 7 peptide-AMC substrates chosen exhibited a unique pattern for nine microbial proteases. The selected peptides were used to determine protease activity in cultured strains of Pseudomonas aeruginosa and Staphylococcus aureus. A signal pattern obtained with peptides with arginine, lysine, and tyrosine in the P1 position characterized the bacterial protease activities in these samples. The kinetic parameters for the three best substrates for the P. aeruginosa sample were calculated. Further information about substrate specificity was gained by the selective use of protease inhibitors. The results presented show that peptide-AMC substrates provide a simple and sensitive tool to characterize protease activity in microbiological samples and that they have the potential to identify and distinguish different bacterial species.     

Dual origin of gut proteases in Formosan subterranean termites (Coptotermes formosanus Shiraki) (Isoptera: Rhinotermitidae)

Cellulose digestion in lower termites, mediated by carbohydrases originating from both termite and endosymbionts, is well characterized. In contrast, limited information exists on gut proteases of lower termites, their origins and roles in termite nutrition. The objective of this study was to characterize gut proteases of the Formosan subterranean termite (Coptotermes formosanus Shiraki) (Isoptera: Rhinotermitidae). The protease activity of extracts from gut tissues (fore-, mid- and hindgut) and protozoa isolated from hindguts of termite workers was quantified using hide powder azure as a substrate and further characterized by zymography with gelatin SDS-PAGE. Midgut extracts showed the highest protease activity followed by the protozoa extracts. High level of protease activity was also detected in protozoa culture supernatants after 24 h incubation. Incubation of gut and protozoa extracts with class-specific protease inhibitors revealed that most of the proteases were serine proteases. All proteolytic bands identified after gelatin SDS-PAGE were also inhibited by serine protease inhibitors. Finally, incubation with chromogenic substrates indicated that extracts from fore- and hindgut tissues possessed proteases with almost exclusively trypsin-like activity while both midgut and protozoa extracts possessed proteases with trypsin-like and subtilisin/chymotrypsin-like activities. However, protozoa proteases were distinct from midgut proteases (with different molecular mass). Our results suggest that the Formosan subterranean termite not only produces endogenous proteases in its gut tissues, but also possesses proteases originating from its protozoan symbionts.     

Digestive proteolytic activity in larvae and adults of Bactrocera oleae Gmelin (Diptera: Tephritidae)

Digestive proteolytic activity in larvae and adults of Bactrocera oleae was studied using specific substrates and inhibitors. The optimal pH for general proteolytic activity was 4 and 10 for soluble and membrane-bound fractions of larvae, and 9 for the soluble fraction of adults. The highest activities of general proteases were revealed at temperatures of 25 °C and 45 °C for both the soluble and membrane-bound fractions of larvae as well as the soluble fraction of adults. Determination of the specific protease activities demonstrated the presence of serine and cysteine proteases in addition to two exopeptidases in the larvae and adults. However, trypsin-like protease, chymotrypsin-like protease, and two exopeptidases of larvae, and chymotrypsin-like protease as well as cathepsin L of adults had no activity in the soluble fraction. The presence of specific proteases was verified by using specific inhibitors such as PMSF, TLCK, TPCK, E-64, EDTA, phenanthroline, and DTT. Finally, feeding of B. oleae larvae on different olive varieties revealed the highest trypsin-like protease, chymotrypsin-like protease, elastase, cathepsin B, cathepsin L, and cathepsin D on Amigdalifolia, Coratina, Baladi, Mari, Conservalia, Baladi, and Arbequina, respectively. These results showed digestive proteolytic activities in B. oleae for the first time, and could be the basic knowledge required for finding a control procedure to decrease the damage of this destructive pest around the world.     

Partial characterization of trypsin-like protease and molecular cloning of a trypsin-like precursor cDNA in salivary glands of Lygus lineolaris

Based on substrate specificity, an alkaline pH optimum, sensitivity to selected proteinase inhibitors, and molecular analysis, we provide evidence for the presence of a trypsin-like serine proteinase in the salivary gland complex (SGC) of the tarnished plant bug, Lygus lineolaris (Palisot de Beauvois) (Heteroptera: Miridae). The predominant activity in extracts of the SGC against N(2)-benzoyl-L-arginine-p-nitroanilide (L-BApNA) was at pH 10, but a minor peak of activity also occurred at pH 5. The major BApNAase activity focused at 10.4 during preparative isoelectric focusing and was eluted with an apparent molecular weight of 23,000 from a calibrated gel filtration column. The BApNAase fraction gave a single major band when analyzed on a casein zymogram. The activity was completely suppressed by the serine protease inhibitors, phenylmethylsulfonyl fluoride (PMSF) and lima bean trypsin inhibitor. A cDNA coding for a trypsin-like protein in the salivary glands of L. lineolaris was cloned and sequenced. The 971bp cDNA contained an 873-nucleotide open reading frame encoding a 291-amino acid trypsin precursor. The encoded protein included amino acid sequence motifs that are conserved with four homologous serine proteases from other insects. Typical features of the putative trypsin-like protein from L. lineolaris included the serine protease active site (His(89), Asp(139), Ser(229)), conserved cysteine residues for disulfide bridges, the residues (Asp(223), Gly(252), Gly(262)) that determine trypsin specificity, and both zymogen signal and activation peptides. Cloning and sequencing of a trypsin-like precursor cDNA provided additional direct evidence for trypsin like enzymes in the salivary glands of L. lineolaris.     

Genetic engineering of the major timothy grass pollen allergen, Phl p 6, to reduce allergenic activity and preserve immunogenicity

On the basis of IgE epitope mapping data, we have produced three allergen fragments comprising aa 1-33, 1-57, and 31-110 of the major timothy grass pollen allergen Phl p 6 aa 1-110 by expression in Escherichia coli and chemical synthesis. Circular dichroism analysis showed that the purified fragments lack the typical alpha-helical fold of the complete allergen. Superposition of the sequences of the fragments onto the three-dimensional allergen structure indicated that the removal of only one of the four helices had led to the destabilization of the alpha helical structure of Phl p 6. The lack of structural fold was accompanied by a strong reduction of IgE reactivity and allergenic activity of the three fragments as determined by basophil histamine release in allergic patients. Each of the three Phl p 6 fragments adsorbed to CFA induced Phl p 6-specific IgG Abs in rabbits. However, immunization of mice with fragments adsorbed to an adjuvant allowed for human use (AluGel-S) showed that only the Phl p 6 aa 31-110 induced Phl p 6-specific IgG Abs. Anti-Phl p 6 IgG Abs induced by vaccination with Phl p 6 aa 31-110 inhibited patients' IgE reactivity to the wild-type allergen as well as Phl p 6-induced basophil degranulation. Our results are of importance for the design of hypoallergenic allergy vaccines. They show that it has to be demonstrated that the hypoallergenic derivative induces a robust IgG response in a formulation that can be used in allergic patients.     

The capture proteasome assay: A method to measure proteasome activity in vitro

Because of its crucial role in various cellular processes, the proteasome is the focus of intensive research for the development of proteasome inhibitors to treat cancer and autoimmune diseases. Here, we describe a new and easy assay to measure the different proteasome activities in vitro (chymotrypsin-like, caspase-like, and trypsin-like) based on proteasome capture on antibody-coated plates, namely the capture proteasome assay (CAPA). Applying the CAPA to lysates from cells expressing standard proteasome, immunoproteasome, or intermediate proteasomes β5i or β1i–β5i, we can monitor the activity of the four proteasome subtypes. The CAPA provided similar results as the standard whole-cell proteasome–Glo assay without the problem of contaminating proteases requiring inhibitors. However, the profile of trypsin-like activity differed between the two assays. This could be partly explained by the presence of MgSO₄ in the proteasome–Glo buffer, which inhibits the trypsin-like activity of the proteasome. The CAPA does not need MgSO₄ and, therefore, provides a more precise measurement of the trypsin-like activity. The CAPA provides a quick and accurate method to measure proteasome activity in vitro in a very specific manner and should be useful for the development of proteasome inhibitors.     

Partial purification and characterization of a cysteine protease inhibitor from the plerocercoid of Spirometra erinacei

Helminthic cysteine proteases are well known to play critical roles in tissue invasion, nutrient uptake, and immune evasion of the parasites. In the same manner, the sparganum, the plerocercoid of Spirometra mansoni, is also known to secrete a large amount of cysteine proteases. However, cysteine protease inhibitors regulating the proteolytic activities of the cysteine protease are poorly illustrated. In this regard, we partially purified an endogenous cysteine protease inhibitor from spargana and characterized its biochemical properties. The cysteine protease inhibitor was purified by sequential chromatographies using Resource Q anion exchanger and Superdex 200 HR gel filtration from crude extracts of spargana. The molecular weight of the purified protein was estimated to be about 11 kD on SDS-PAGE. It was able to inhibit papain and 27 kDa cysteine protease of spargana with the ratio of 25.7% and 49.1%, respectively, while did not inhibit chymotrypsin. This finding suggests that the cysteine protease inhibitor of spargana may be involved in regulation of endogenous cysteine proteases of the parasite, rather than interact with cysteine proteases from their hosts.     

Characterization and isolation of a trypsin-like serine protease from a long-term culture cytolytic T cell line and its expression by functionally distinct T cells

We describe the characterization and purification of a trypsin-like serine protease isolated from cloned long-term culture cytolytic T cell line (CTLL AK). High amounts of proteolytic activity were isolated from extracts of CTLL AK after either nitrogen cavitation or detergent lysis. Trypsin-like protease was detected by using either the ester compound N alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester or a panel of low molecular amide substrates. The latter compounds were preferentially cleaved at the carboxyl termini of lysine and arginine residues. The enzyme activity was completely inhibited by two serine esterase inhibitors, diisopropylfluorophosphate and phenylmethanesulfonyl fluoride, and by aprotinin and meta-aminobenzamidine, which are known to block trypsin-like proteases. The pH optimum for CTLL AK-derived protease activity is 8 to 9. Analysis of the enzyme by gel filtration revealed that the cell-bound proteolytic activity was associated with a complex that could not be dissociated by treatment with Triton X-100. The CTLL AK-derived protease activity was found to reside in two proteins with relative molecular masses (Mr) of 32,000 and 40,000 daltons as determined by affinity labeling with [3H]diisopropylfluorophosphate and sodium dodecyl sulfate gel electrophoresis. High levels of enzyme activity were found in a panel of H-Y-specific cloned T cell lines with either cytolytic/suppressor (CTLL) or helper potential (THL), indicating a lack of correlation between trypsin-like protease activity and a particular T cell function. High enzyme activity was also detected in tumorigenic variants of CTLL. Furthermore, it was excluded that the trypsin-like activity detected was attributable to plasminogen activator activity. In contrast to cloned T effector cells and their in vitro or in vivo derived variants, considerably less activity was found in normal nonactivated or activated lymphocyte populations. The possible role of the trypsin-like serine protease in the function of T effector cells is discussed.     

Identification and characterization of midgut proteases in <Emphasis Type="Italic">Achaea janata</Emphasis> and their implications

Insect midgut proteases are excellent targets for insecticidal agents such as Bacillus thuringiensis Cry toxins and protease inhibitors. The midgut proteases of Achaea janata have been characterized and Casein zymograms indicated at least five distinct activities corresponding to approx 17, 20, 29 and 80, and 90 kDa. Using a combination of synthetic substrates and specific inhibitors in casein zymograms, photometric assays and activity blots, three trypsin-like and one elastase-like serine proteases were identified but no chymotrypsin-like activity. Various proteinase inhibitors displayed differential inhibitory effects towards the midgut proteases.     

Trypanosoma cruzi: Isolation and characterization of aspartyl proteases

Two aspartyl proteases activities were identified and isolated from Trypanosoma cruzi epimastigotes: cruzipsin-I (CZP-I) and cruzipsin-II (CZP-II). One was isolated from a soluble fraction (CZP-II) and the other was solubilized with 3-[(3-cholamidopropyl)-dimethylammonio]-1-propanesulfonate (CZP-I). The molecular mass of both proteases was estimated to be 120 kDa by HPLC gel filtration and the activity of the enzymes was detected in a doublet of bands (56 and 48 kDa) by substrate-sodium dodecyl sulphate-polyacrylamide-gelatin gel electrophoresis. Substrate specificity studies indicated that the enzymes consistently hydrolyze the cathepsin D substrate Phe-Ala-Ala-Phe (4-NO₂)-Phe-Val-Leu-O₄MP but failed to hydrolyze serine and other protease substrates. Both proteases activities were strongly inhibited by the classic inhibitor pepstatin-A (?68%) and the aspartic active site labeling agent, 1,2-epoxy-3-(phenyl-nitrophenoxy) propane (?80%). These findings show that both proteases are novel T. cruzi acidic proteases. The physiological function of these enzymes in T. cruzi has under investigation.     

Isolation and partial characterization of two alkaline proteases of the greater wax moth Galleria mellonella (L.)

Two alkaline proteases were isolated from whole-body extracts of Galleria mellonella larvae. The two proteases were separated by cation-exchange chromatography on CM-Sepharose CL6B and further purified by gel filtration on Ultrogel ACA 54. The optimal pH of activity using Azocoll as substrate was 10.5 for protease P-1 and 11.2 for protease P-2. The molecular weights of the two enzymes determined by gel filtration were respectively 12,500 and 10,500. Protease P-1 was inhibited by soybean trypsin inhibitor, TPCK, TLCK and activated by non-ionic detergents. Protease P-2 was inhibited by soybean trypsin inhibitor, 4-aminobenzamidine, ovomucoid and activated by dithiothreitol. Both enzymes were partially inhibited by PMSF.Distribution studies suggested that the two proteases were digestive enzymes.     

Protection from tumor necrosis factor cytotoxicity by protease inhibitors

Tumor necrosis factor (TNF) is cytocidal for human and murine cells when protein synthesis is inhibited by cycloheximide, but some protease inhibitors completely protect these cells from TNF cytotoxicity. Inhibitors of chymotrypsin-like proteases are active at lower concentrations than inhibitors of trypsin-like proteases. Both irreversible inhibitors, such as alkylating compounds, and reversible inhibitors, such as substrates of proteases, protect cells from the cytocidal activity of TNF. This protection is most effective when the cells are pretreated with these inhibitors before addition of TNF. When the protease inhibitors are removed, the cells gradually lose resistance to TNF cytotoxicity. The inhibitors do not interfere with the functioning of TNF-receptor complexes, since SK-MEL-109 melanoma cells treated with a protease inhibitor synthesize a TNF-induced protein. These findings suggest that a protease in involved in the cytocidal action of TNF.     

蛋白酶抑制剂对绿豆象幼虫中肠蛋白酶活性的影响

为明确蛋白酶抑制剂对绿豆象幼虫中肠蛋白酶活性的影响,采用室内人工接虫和生化测定的方法,研究了在离体条件和饲喂条件下4种蛋白酶抑制剂对绿豆象幼虫中肠蛋白酶的抑制作用,并测定了绿豆象幼虫取食不同含量的绿豆胰蛋白酶抑制剂(MBTI)的人工绿豆后,其中肠内总蛋白酶、类胰蛋白酶和类胰凝乳蛋白酶活性的变化.结果表明:在离体条件下,供试4种蛋白酶抑制剂对绿豆象幼虫总蛋白酶、类胰蛋白酶和类胰凝乳蛋白酶活性均有明显的抑制作用,且浓度越大,抑制效果越显著,其中以20μg·mL^-1的MBTI对3种酶活性的抑制效果最强,3种酶活性分别比对照降低了62.5%、41.2%和38.7%,而卵粘蛋白抑制剂(OI)抑制效果最弱.绿豆象幼虫取食含不同抑制剂的人工绿豆后,中肠内3种酶活性也均受到一定的抑制作用,取食后随龄期的延长,3种酶活性有所升高但仍显著低于对照,且以MBTI的抑制作用最强.当绿豆象幼虫取食不同含量MBTI的人工绿豆后,随MBTI含量的增加,对总蛋白酶活性和类胰蛋白酶活性的抑制作用均逐渐增强,但对类胰凝乳蛋白酶活性的抑制作用并不显著,只有当MBTI含量达20%时,对类胰凝乳蛋白酶活性才表现出明显的抑制作用.