Characterization of Serine Proteinase Inhibitor from Subabul (Leucaena leucocephala Lam) Seeds

Partially purified subabul trypsin inhibitor (STI) showed high level of thermotolerance and pH stability with a molecular weight of -15 kD. Bioassay results showed that STI is a strong inhibitor of Helicoverpa armigera larval gut proteinases. In vitro feeding experiments revealed 40% mortality in inhibitor fed larvae followed by 12 days extension in larval growth period and significant reduction in pupal weight. Differential activity staining for the larval gut proteolytic enzymes did not show any difference in the isoprotease pattern between the control and the larvae fed with STI.     

Candida guilliermondii isolated from HIV-infected human secretes a 50 kDa serine proteinase that cleaves a broad spectrum of proteinaceous substrates

Non-albicans Candida species cause 35-65% of all candidemias in the general population, especially in immunosuppressed individuals. Here, we describe a case of a 19-year-old HIV-infected man with pneumonia due to a yeast-like organism. This clinical yeast isolate was identified as Candida guilliermondii through mycological tests. C. guilliermondii was cultivated in brain heart infusion medium for 48 h at 37 degrees C. After sequential centrifugation and concentration steps, the free-cell culture supernatant was obtained and extracellular proteolytic activity was assayed firstly using gelatin-SDS-PAGE. A 50 kDa proteolytic enzyme was detected with activity at physiological pH. This activity was completely blocked by 10 mM phenylmethylsulphonyl fluoride (PMSF), a serine proteinase inhibitor, suggesting that this extracellular proteinase belongs to the serine proteinase class. E-64, a strong cysteine proteinase inhibitor, and pepstatin A, a specific aspartic proteolytic inhibitor, did not interfere with the 50 kDa proteinase. Conversely, a zinc-metalloproteinase inhibitor (1,10-phenanthroline) restrained the proteinase activity released by C. guilliermondii by approximately 50%. Proteinases are a well-known class of enzymes that participate in a vast context of yeast-host interactions. In an effort to establish a functional implication for this extracellular serine-type enzyme, we investigated its capacity to hydrolyze some serum proteins and extracellular matrix components. We demonstrated that the 50 kDa exocellular serine proteinase cleaved human serum albumin, non-immune human immunoglobulin G, human fibronectin and human placental laminin, generating low molecular mass polypeptides. Collectively, these results showed for the first time the ability of an extracellular proteolytic enzyme other than aspartic-type proteinases in destroying a broad spectrum of relevant host proteins by a clinical species of non-albicans Candida.     

Does host range influence susceptibility of herbivorous insects to non-host plant proteinase inhibitors?

We examined the influence of proteinase inhibitors on digestive enzymes and development of oriental beetle,Exomala orientalis Waterhouse, European chafer,Rhizotrogus majalis (Razoumowsky),Phyllophaga white grub,Phyllophaga anxia (LeConte), cranberry root grub,Lichnanthe vulpina (Hentz), Japanese beetle,Popillia japonica Newman, Asiatic garden beetle, Maladera castanea (Arrow) (Coleoptera: Scarabaeidae), and the black cutworm,Agrotis ipsilon (Rottemburg) (Lepidoptera: Noctuidae). We demonstrated that all species within our test group had alkaline midguts that contained proteinase activity that could be inhibited,in vitro with serine proteinase inhibitors. Our data suggests that host range may influence the susceptibility to non-host inhibitors. Chronic ingestion of the serine proteinase inhibitor, Kunitz-soybean trypsin inhibitor (STI), significantly reduced proteolytic activityin vivo in those species with relatively specialized feeding habits (i.e., cranberry root grub, Japanese beetle, Asiatic garden beetle, and black cutworm). Chronic ingestion of STI also resulted in reduced larval growth and delayed pupation for black cutworm, and elevated larval mortality for Japanese beetle. However, chronic ingestion of STI did not influence larval survival for those species with relatively generalized feeding habits (i.e., oriental beetle, European chafer). Based on these results, we propose mechanistically-based criteria for selecting proteinase inhibitors for phytochemical defense against herbivorous insects.     

大豆胰蛋白酶抑制剂与棉酚或丹宁混用对棉铃虫中肠蛋白酶和生长率的影响

本文报告了大豆胰蛋白酶抑制剂(STl)与棉酚、丹宁酸单一和协同作用对棉铃虫Helicoverpa armigera(Hubner)幼虫中肠蛋白酶活性和生长速率的影响。在离体条件下,STI、棉酚和丹宁酸均对中肠蛋白酶有抑制作用,以STI的作用最强。活体试验表明,人工饲料中0.84%(干重)的S丁I对强碱性类胰蛋白酶活力有显著抑制作用;0.3%丹宁酸则对弱碱性类胰蛋白酶和总蛋白酶活力有显著抑制作用;0.3%棉酚对几种蛋白酶活力的影响均不显著。三者均能显著抑制幼虫的生长,而Sn与棉酚或丹宁酸的协同作用比三者的单独作用更能有效地抑制幼虫的生长发育和中肠蛋白酶活性。     

Purification and antiparasitic activity of a few legume serine proteinase inhibitors: Effect on erythrocyte invasion,schizont rupture and proteolytic processing of the Plasmodium falciparum AMA1 protein

Legume proteinase inhibitors (PI/s) abrogate proteolytic activity of proteins and cause adverse effects on growth. In this study, two legume PIs – Archidendron ellipticum Trypsin Inhibitor (AeTI) and Derris trifoliata Trypsin Chymotrypsin Inhibitor (DtTCI) were purified and used along with standard, Soybean Trypsin Inhibitor (STI), either singly or in combination, as antiplasmodial agents against two Plasmodium forms (Pf 3D7/Pf FCR3). Both AeTI/DtTCI were purified to homogeneity by HPLC and showed over 98% trypsin/chymotrypsin inhibition, respectively. DtTCI severely arrested growth of both the Plasmodium forms (IC50 of 9.59 μM and 16.86 μM, respectively). In addition, combination of DtTCI/AeTI had synergistic effect against both Pf 3D7 (FIC – 0.19) and Pf FCR3 (FIC − 0.23). Combinations of DtTCI/STI and AeTI/STI showed additive effects for the parasite forms. Time-course studies indicated DtTCI and combination of DtTCI/AeTI, to be potent inhibitor of schizont rupture. Antiproteolytic action of the PIs on Pf Apical Merozoite Antigen 1 (AMA1) protein revealed that none of the inhibitors (singly/combinations) affected the primary proteolysis of PfAMA1 protein. Notably however, the normal secondary proteolysis of PfAMA1 was abrogated by both DtTCI (singly/combinations) and AeTI. Incidentally, the proteolytic processing of PfAMA1 remained unaffected following STI treatment.     

Inhibition of cysteine and aspartyl proteinases in the alfalfa weevil midgut with biochemical and plant-derived proteinase inhibitors

Proteolytic activities in alfalfa weevil (Hypera postica) larval midguts have been characterized. Effects of pH, thiol activators, low-molecular weight inhibitors, and proteinase inhibitors (PIs) on general substrate hydrolysis by midgut extracts were determined. Hemoglobinolytic activity was highest in the acidic to mildly acidic pH range, but was maximal at pH 3.5. Addition of thiol-activators dithiothreitol (DTT), 2-mercaptoethanol (2-ME), or L-cysteine had little effect on hemoglobin hydrolysis at pH 3.5, but enhanced azocaseinolytic activity two to three-fold at pH 5.0. The broad cysteine PI E-64 reduced azocaseinolytic activity by 64% or 42% at pH 5 in the presence or absence of 5 mM L-cysteine, respectively. Inhibition by diazomethyl ketones, Z-Phe-Phe-CHN(2) and Z-Phe-Ala-CHN(2), suggest that cathepsins L and B are present and comprise approximately 70% and 30% of the cysteine proteolytic activity, respectively. An aspartyl proteinase component was identified using pepstatin A, which inhibited 32% (pH 3.5, hemoglobin) and 50% (pH 5, azocasein) of total proteolytic activity. This activity was completely inhibited by an aspartyl proteinase inhibitor from potato (API), and is consistent with the action of a cathepsin D-like enzyme. Hence, genes encoding PIs with specificity toward cathepsins L, B and D could potentially be effective for control of alfalfa weevil using transgenic plants.     

大豆胰蛋白酶抑制剂对棉铃虫幼虫消化生理和生长发育的影响

本研究根据棉铃虫Helicotverpa ormigera(Hubner)幼虫中肠蛋白酶在离体条件下对蛋白酶抑制剂的反应,选择具有较强抑制作用的大豆胰蛋白酶抑制剂,以0.21-4.2%(干重)的浓度配入幼虫人工饲料,测定了幼虫短期和长期取食这些饲料引起的中肠类胰蛋白酶、类胰凝乳蛋白酶和总蛋白酶活力的变化和生长抑制效应。短期取食抑制剂的幼虫,中肠弱碱性类胰蛋白酶活力显著增高,在4.2%。浓度下比对照高出21%;强碱性类胰蛋白酶、类胰凝乳蛋白酶和总蛋白酶活力显著降低,生长发育受到明显抑制。长期取食低浓度(0.84%)抑制剂的幼虫,弱碱性类胰蛋白酶和类胰凝乳蛋白酶活力显著增高,强碱性类胰蛋白酶活力显著降低。总蛋白酶活力变化不显著;长期取食高浓度(4.2%)抑制剂的幼虫,强碱性类胰蛋白酶和总蛋白酶活力显著降低,其它酶活力变化不显著。抑制剂随浓度的增高对幼虫生长的抑制作用加强,但浓度高于0.84%后,抑制强度的变化减小。据此作者认为,蛋白酶抑制剂对昆虫抗营养效应在于它对蛋白酶的激活和抑制作用,从而导致各种蛋白酶间的协调性破坏,昆虫消化过程受阻,影响生长发育。     

Gelatinases and serine proteinase inhibitors of seminal plasma and the reproductive tract of turkey (Meleagris gallopavo)

This study examined proteolytic enzymes and serine proteinase inhibitors in turkey seminal plasma with relation to their distribution within the reproductive tract and to yellow semen syndrome (YSS). Proteases of blood plasma, extracts from the reproductive tract, and seminal plasma were analyzed by gelatin zymography. We found a clear regional distribution of proteolytic enzymes in the turkey reproductive tract. Each part was characterized by a unique profile of serine proteolytic enzymes of molecular weights ranging from 29 to 88 kDa. The ductus deferens was found to be a site of very intense proteolytic activity. Two metalloproteases of 58 and 66 kDa were detected in all parts of the reproductive tract and seminal plasma. Using electrophoretic methods for detection of anti-trypsin activity, we found three serine proteinase inhibitors in turkey seminal plasma. Two inhibitors were found in the testis and epididymis and a third in the ductus deferens and seminal plasma. Blood plasma was characterized by the presence of two metalloproteinases and one serine proteinase inhibitor (of low migration rate) that were also detected in the reproductive tract. Amidase and anti-trypsin activities (expressed per gram of protein) differed for yellow and white seminal plasma. We concluded that turkey seminal plasma contains metalloproteases, serine proteinases, and serine proteinase inhibitors. The metalloproteases and one proteinase inhibitor are related to blood proteinases but the other two inhibitors and serine proteinases seem to be unique for the reproductive tract.     

Differences in midgut serine proteinases from larvae of the bruchid beetles Callosobruchus maculatus and Zabrotes subfasciatus

Proteinase activities in the larval midguts of the bruchids Callosobruchus maculatus and Zabrotes subfasciatus were investigated. Both midgut homogenates showed a slightly acidic to neutral pH optima for the hydrolysis of fluorogenic substrates. Proteolysis of epsilon-aminocaproil-Leu-Cys(SBzl)-MCA was totally inhibited by the cysteine proteinase inhibitors E-64 and leupeptin, and was activated by 1.5 mM DTT in both insects, while hydrolysis of the substrate Z-ArgArg-MCA was inhibited by aprotinin and E-64, which suggests that it is being hydrolysed by serine and cysteine proteinases. Gel assays showed that the proteolytic activity in larval midgut of C. maculatus was due to five major cysteine proteinases. However, based on the pattern of E-64 and aprotinin inhibition, proteolytic activity in larval midgut of Z. subfasciatus was not due only to cysteine proteinases. Fractionation of the larval midgut homogenates of both bruchids through ion-exchange chromatography (DEAE-Sepharose) revealed two peaks of activity against Z-ArgArg-MCA for both bruchid species. The fractions from C. maculatus have characteristics of cysteine proteinases, while Z. subfasciatus has one non-retained peak of activity containing cysteine proteinases and another eluted in a gradient of 250-350 mM NaCl. The proteolytic activity of the retained peak is higher at pH 8.8 than at pH 6.0 and corresponds with a single peak that is active against N-p-tosyl-GlyGlyArg-MCA, and sensitive to 250 microM aprotinin (90% inhibition). The peak contains a serine proteinase which hydrolyzes alpha-amylase inhibitor 1 from the common bean (Phaseolus vulgaris). Arch.     

大豆胰蛋白酶抑制剂与棉酚或丹宁混用对棉铃虫中肠蛋白酶和生长率的影响

本文报告了大豆胰蛋白酶抑制剂(STl)与棉酚、丹宁酸单一和协同作用对棉铃虫Helicoverpa armigera(Hubner)幼虫中肠蛋白酶活性和生长速率的影响。在离体条件下,STI、棉酚和丹宁酸均对中肠蛋白酶有抑制作用,以STI的作用最强。活体试验表明,人工饲料中0.84%(干重)的S丁I对强碱性类胰蛋白酶活力有显著抑制作用;0.3%丹宁酸则对弱碱性类胰蛋白酶和总蛋白酶活力有显著抑制作用;0.3%棉酚对几种蛋白酶活力的影响均不显著。三者均能显著抑制幼虫的生长,而Sn与棉酚或丹宁酸的协同作用比三者的单独作用更能有效地抑制幼虫的生长发育和中肠蛋白酶活性。     

Dietary mixtures of cysteine and serine proteinase inhibitors exhibit synergistic toxicity toward the red flour beetle,Tribolium castaneum

1. Combinations of a cysteine proteinase inhibitor (CPI) and serine proteinase inhibitors (SPI) in wheat germ diets were toxic to larvae of the red flour beetle, Tribolium castaneum, when tested at levels where individual inhibitors were nontoxic.2. Mixtures of 0.1% (w/w) CPI (E-64) plus 1% of either of three plant SPIs (soybean Kunitz trypsin inhibitor, soybean Bowman-Birk trypsin-chymotrypsin inhibitor, or lima bean trypsin inhibitor) inhibited T. castaneum growth, resulting in 82–97% reduction in larval weight gain 17 days after hatching and 40–60% mortality.3. Supplemention of diet containing 0.1% E-64 plus 1% soybean Kunitz trypsin inhibitor (STI) with a mixture of amino acids at 7% caused a partial reversal of the growth inhibition, with 91% of the larvae surviving.4. Diet containing 0.1% E-64 plus either 5 or 10% STI resulted in 100% mortality of the larvae during the first or second instar.5. Addition of a mixture ofamino acids at 20% to the 0.1% E-64 plus 10% STI diet allowed 89% of the larvae to develop into adults.6. The synergism between different classes of proteinase inhibitors in the insect's diet that enhances growth inhibition and toxicity demonstrates the potential for an insect pest management strategy involving the coordinated manipulation of two or more types of digestive enzyme inhibitor genes in plants.     

The interactions between soybean trypsin inhibitor and delta-endotoxin of Bacillus thuringiensis in Helicoverpa armigera larva

No significant difference in larval mortality was observed when a sublethal dose of Bacillus thuringiensis (Bt) var. kurstaki HD-1 crystal was supplemented with soybean trypsin inhibitor (STI) in the artificial diet fed to Helicoverpa armigera in the laboratory, but supplementing a nonlethal dose of crystal with STI in the diet led to a pronounced reduction of larval growth. This concentration of crystal and two lower concentrations of STI alone had no significant effects on larval growth. The results of substrate-gel electrophoresis demonstrated that the proteases in the H. armigera midgut fluid responsible for the degradation of protoxin consisted of at least four proteases with molecular weights of 71, 49, 36, and 30 kDa. All four proteases could utilize casein also as the substrate. When larvae were fed with STI or Bt + STI, the proteolytic activities of the 49-kDa enzyme disappeared, and the activities of the other three enzymes were reduced. Enzyme assays also indicated that feeding larvae with diets containing Bt, STI, or Bt + STI significantly decreased the specific activities of larval general proteases and the trypsin-like enzyme. The protein concentration of midgut fluid was elevated, especially in the larvae fed on the diets containing STI and Bt + STI. Both in vitro and in vivo studies showed that the degradation of protoxin and toxin could be inhibited by soybean trypsin inhibitors, but when the incubation time was prolonged, the protoxin could be degraded completely, while the degradation of toxin was inhibited further. This suggested that the retention time of toxins in the larval midgut was extended and synergism between insecticidal crystal protein and soybean trypsin inhibitor occurred, which showed as the inhibition of H. armigera larval growth.     

Higher accumulation of proteinase inhibitors in flowers than leaves and fruits as a possible basis for differential feeding preference of Helicoverpa armigera on tomato (Lycopersicon esculentum Mill, Cv. Dhanashree)

Tomato (Lycopersicon esculentum, Mill; cultivar- Dhanashree) proteinase inhibitors (PIs) were tested for their trypsin inhibitory (TI) and Helicoverpa armigera gut proteinases inhibitory (HGPI) activity in different organs of the tomato plants. Analysis of TI and HGPI distribution in various parts of the plant showed that flowers accumulated about 300 and 1000 times higher levels of TI while 700 and 400 times higher levels of HGPI as compared to those in leaves and fruits, respectively. Field observation that H. armigera larvae infest leaves and fruits but not the flowers could be at least partially attributed to the protective role-played by the higher levels of PIs in the flower tissue. Tomato PIs inhibited about 50-80% HGP activity of H. armigera larvae feeding on various host plants including tomato, of larvae exposed to non-host plant PIs and of various larval instars. Tomato PIs were found to be highly stable to insect proteinases wherein incubation of inhibitor with HGP even for 3h at optimum conditions did not affect inhibitory activity. Bioassay using H. armigera larvae fed on artificial diet containing tomato PIs revealed adverse effect on larval growth, pupae development, adult formation and fecundity.     

Compensatory proteolytic responses to dietary proteinase inhibitors from Albizia lebbeck seeds in the Helicoverpa armigera larvae

Plant proteinase inhibitors (PIs) have been shown to reduce the growth rates in larvae of numerous insect species. On the other hand, insects can also regulate their proteinases against plant PIs. In the present study, we report the compensatory activities of Helicoverpa armigera (Hubner) (Lepidoptera: Noctuidae) gut proteinases against the PIs of Albizia lebbeck seeds. Total of ten proteinase inhibitor bands were detected in the seed extract of A. lebbeck. Bioassays were conducted by feeding H. armigera larvae on diet containing partially purified PIs from A. lebbeck seeds. Results show that larval growth and survival was significantly reduced by A. lebbeck PIs. We found that higher activity H. armigera gut proteinase (HGP) isoforms observed in the midgut of control larvae were inhibited in the midgut of larvae fed on test diet. Some HGP isoforms were induced in the larvae fed on PI containing test diet; however, these isoforms showed lower activity in the larvae fed on control diet. Aminopeptidase activities were significantly increased in the midgut of larvae fed on test diet. A population of susceptible and resistant enzymes was observed in the midgut of H. armigera, when fed on diet containing PIs from A. lebbeck seeds. Our initial observations indicate that H. armigera can regulate its digestive proteinase activity against non-host plant PIs, too. It is important to study the exact biochemical and molecular mechanisms underlying this phenomenon in order to develop PI-based insect control strategies.     

In vivo and in vitro effect of Acacia nilotica seed proteinase inhibitors on Helicoverpa armigera (Hübner) larvae

Acacia nilotica proteinase inhibitor (AnPI) was isolated by ammonium sulphate precipitation followed by chromatography on DEAE-Sephadex A-25 and resulted in a purification of 10.68-fold with a 19.5 percentage yield. Electrophoretic analysis of purified AnPI protein resolved into a single band with molecular weight of approximately 18.6+1.00 kDa. AnPI had high stability at different pH values (2.0 to 10.0) except at pH 5.0 and are thermolabile beyond 80 degree C for 10 min. AnPI exhibited effective against total proteolytic activity and trypsin-like activity, but did not show any inhibitory effect on chymotrypsin activity of midgut of Helicoverpa armigera. The inhibition kinetics studies against H. armigera gut trypsin are of non-competitive type. AnPI had low affinity for H. armigera gut trypsin when compared to SBTI. The partially purified and purified PI proteins-incorporated test diets showed significant reduction in mean larval and pupal weight of H. armigera. The results provide important clues in designing strategies by using the proteinase inhibitors (PIs) from the A. nilotica that can be expressed in genetically engineered plants to confer resistance to H. armigera.     

The interaction between some serine proteinases and horse leucocyte inhibitor

Horse blood leucocyte cytosol exhibits a broad inhibitory activity against serine proteinases. The purified inhibitor was exposed to investigated enzymes (trypsin, chymotrypsin, elastases and serine proteinase from S. aureus) for variable time and the products were analyzed by gradient polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate. The molar ratio I:E, association rate constants k on and inhibition constants Ki for the enzymes and inhibitor were determined. The examined elastases form stable, stoichiometric complexes with the inhibitor (Ki less than 10(-10) M), and do not undergo proteolytic degradation during 30 min incubation at 20 degrees C even at the 2-fold molar excess of the proteinases. The reactions with elastases are extremely rapid (k on greater than 10(7) M-1 s-1) and are completed within one second whereas similar reactions with chymotrypsin and trypsin are much slower (k on = 3 X 10(5) M-1 s-5 and 5 X 10(2) M-1 s-1, respectively). Serine proteinase from S. aureus neither react nor inactivates the investigated inhibitor. The complexes of the inhibitor with trypsin and chymotrypsin are digested even at a molar ratio I:E = 2:1. All these observations point out that the inhibitor from horse leucocyte cytosol is a specific and effective inhibitor of elastases.     

Thiol-activated serine proteinases from nymphal hemolymph of the African migratory locust,Locusta migratoria migratorioides

Two unique serine proteinase isoenzymes (LmHP-1 and LmHP-2) were isolated from the hemolymph of African migratory locust (Locusta migratoria migratorioides) nymphs. Both have a molecular mass of about 23 kDa and are activated by thiol-reducing agents. PMSF abolishes enzymes activity only after thiol activation, while the cysteine proteinase inhibitors E-64, iodoacetamide, and heavy metals fail to inhibit the thiol-activated enzymes. The N-terminal sequence was determined for the more-abundant LmHP-2 isoenzyme. It exhibits partial homology to that of other insect serine proteinases and similar substrate specificity and inhibition by the synthetic and protein trypsin inhibitors pABA, TLCK, BBI, and STI. The locust trypsins LmHP-1 and LmHP-2 constitute a new category of serine proteases wherein the active site of the enzyme is exposed by thiol activation without cleavage of peptide bonds.     

Screening for Milk-clotting Enzyme from Basidiomycetes

Screening tests for aspartic proteinases with milk-clotting activity were done on basidiomycetes. Crude enzymes from 6 strains had a high ratio of milk-clotting activity to caseinolytic activity. These enzymes showed acidic pH optimum for proteolytic activity and were inhibited considerably by pepstatin, a specific aspartic proteinase inhibitor. Among them, the crude enzyme from Laetiporus sulphureus was more heat-labile than the other enzymes.