Dissolution and Degradation of Bacillus thuringiensis delta-Endotoxin by Gut Juice Protease of the Silkworm Bombyx mori

The dissolution and degradation of dagger-endotoxin (crystal) of Bacillus thuringiensis subsp. kurstaki strain HD-1 were investigated. Crystals were dissolved in 0.1 M phosphate-carbonate-NaOH buffer at pH > 12. Swelling of crystals occurred in the buffer between pH 10 and 11, and crystals dissolved in the same buffer supplemented with gut juice protease of the silkworm Bombyx mori. The proteolytic dissolution of crystals occurred after a time lag of several minutes in 0.1 M carbonate-NaOH buffer, pH 10.2. The time lag was not observed when crystals were suspended in the buffer for 30 min before the addition of protease. After the dissolution of the crystals and further degradation of the solubilized protein, the appearance of a toxic protein with a molecular weight of 59,000, designated P-59, was observed. Lower-molecular-weight peptides (less than 40,000) showed no toxicity to the silkworm larvae on feeding. Digestion of the 120,000-dalton subunit of the crystal by gut juice protease also produced P-59. These observations suggest the occurrence of a similar process in vivo, i.e., the swelling of crystals due to the alkalinity of gut juice and the production of P-59, dependent on the hydrolysis of swollen crystals by gut juice protease.     

EFFECT OF DISSOLUTION AND DEGRADATION OF BAClLUlS THURlNGIENSlS PARASPORAL CRYSTALS ON TOXICITY TO COTTON BOLLWORM*

Abstract The effect of dissolution and buffer pH values on the proteolysis of Bacillus thuringiensis subvar. kurstaki HD-1 parasporal crystals were studied by SDS-PAGE. Dissolution made crystal much easier to be digested by larval Helicoverpa armigera midgut proteases; the rate of proteolysis of protoxin was faster than that of the crystal. Incubated with larval midgut juice, bovine trypsin and chymotrypsin for 17 h at 30°C, the proteolytic process of crystals deepened as the pH of buffer rose from 6. 9 to 10.5; the complete degradation of crystals occurred at pH 10.5, and the active domains were similar, with molecular weight of 60.5±1.26Kd, 61.6±1.16Kd, and 61.7±2.0Kd respectively. Bioassay results suggested that incubation in alkaline buffer could improve the toxicity of crystals to H. armigera, proteolysis gave no further modification to the toxicity and the toxicity was not significantly different among the products from proteolysis by larval midgut juice, bovine trypsin and chymotrypsin, Whether diets with different pH would affect the toxicity of crystals to H. armiger were also tested. Diets made by 0. 01mol.L^-1 Tris-HC1 buffer, pH 8.0 and 0.01mol*L^-1 glycine-NaOH buffer, pH 10.0, all significantly increased the toxicity of crystals and no difference between them was observed.     

Mode of Action of Bipyramidal δ-Endotoxin of Bacillus thuringiensis subsp. kurstaki HD-1

The mode of action of the toxic fragment (P-59) derived from bipyramidal-shaped δ-endotoxin of Bacillus thuringiensis subsp. kurstaki HD-1 on the silkworm Bombyx mori was investigated. An enzyme-linked immunosorbent assay showed that there was no translocation of P-59 from the gut lumen to the hemocoel. When membrane vesicles prepared from silkworm midgut were incubated with P-59, normally smooth surface of vesicles became rough, and patch formation was observed on the surface. Vesicles treated with P-59 tended to agglutinate. The vesicle-denaturing activity of a 130,000-dalton subunit protein of bipyramidal toxin was enhanced by treatment with a gut juice protease of the silkworm. P-59 did not cause any uncoupling effect on mitochondria of the silkworm midgut. These results suggest that the attacking site of this toxin is not the mitochondrion but the cell membrane of the susceptible cell.     

Purification and properties of the Bombyx mori nuclear polyhedrosis virus liberated from polyhedra by dissolution with silkworm gut juice

Occluded virions of the Bombyx mori nuclear polyhedrosis virus were efficiently liberated from polyhedra by dissolution with the silkworm gut juice. The liberated virions were purified by sucrose density gradient centrifugation and the bands of enveloped virions were observed in the gradients. There was no functional difference between the gut juice-liberated and the carbonate-liberated virions. Disruption of enveloped virions by the gut juice was observed, but the formation of nucleocapsids from the degradation of the occluded virions was not detected. High yields of the enveloped virions from the polyhedra dissolved by the gut juice was obtained by separating the virions through sucrose density gradient centrifugation immediately after the dissolution of the polyhedra. Many factors, e.g., rearing seasons, silkworm strains, and rearing conditions, affect the polyhedra-dissolving property of the larval gut juice.     

Effect of alkaline protease on the antigenic nature of wiseana nuclear polyhedrosis virus polyhedron protein

Polyhedron protein from Wiseana spp. nuclear polyhedrosis virus was found to be degraded by an alkali protease when polyhedra are dissolved in alkali. The protease activity did not occur at high pH (0.1 M NaOH) and was inactivated by heating polyhedra to 70°C for 3 h. The products from the protease degradation of Wiseana spp. nuclear polyhedrosis virus polyhedron protein retain the antigenicity of undegraded polyhedron protein as measured by the direct solid-phase radioimmunoassay and immunoadsorption. Degradation products below 27,000 daltons could not be detected by the sandwich radioimmunoassay, indicating that they are probably monovalent.     

pH对苏云金杆菌晶体致病性的影响

报道了以苏云金杆菌5个菌株的晶体,经粘虫和黄粉虫幼虫的肠液在pH为6．4、7,4、8．4和9．4的缓冲液中（28℃）消化6小时后,其上清液（消化部分）和沉淀（未消化部分）对三龄末粘虫和黄粉虫幼虫的毒力。结果表明,457株、HD－1珠和10－4－13株的上清波和沉淀对粘虫均有不同程度的毒效,T84-1,株和T2株的上清液和沉淀对粘虫均无毒效;而对黄粉虫幼虫,以pH9．4时的上清液和沉淀均无毒效,在pH6．4和7．4时晶体被消化得极少,pH8．4时能被消化但较pH9．4时少。证明了pH对晶体的消化起重要作用,也表明了晶体之间在结构上存在着差异。     

Mode of Action of Bipyramidal delta-Endotoxin of Bacillus thuringiensis subsp. kurstaki HD-1

The mode of action of the toxic fragment (P-59) derived from bipyramidal-shaped delta-endotoxin of Bacillus thuringiensis subsp. kurstaki HD-1 on the silkworm Bombyx mori was investigated. An enzyme-linked immunosorbent assay showed that there was no translocation of P-59 from the gut lumen to the hemocoel. When membrane vesicles prepared from silkworm midgut were incubated with P-59, normally smooth surface of vesicles became rough, and patch formation was observed on the surface. Vesicles treated with P-59 tended to agglutinate. The vesicle-denaturing activity of a 130,000-dalton subunit protein of bipyramidal toxin was enhanced by treatment with a gut juice protease of the silkworm. P-59 did not cause any uncoupling effect on mitochondria of the silkworm midgut. These results suggest that the attacking site of this toxin is not the mitochondrion but the cell membrane of the susceptible cell.     

Milk-clotting Enzyme from Microorganisms: V. Purification and Crystallization of Mucor Rennin from Mucor pusillus var. Lindt

A rennin crystal was obtained from the crude milk-clotting enzyme of Mucor pusillus var. Lindt. The crude enzyme was purified by using columns of Amberlite CG-50, diethylaminoethyl Sephadex A-50, and Sephadex G-100. This purified enzyme was dissolved in 0.1 M sodium acetate (pH 5.0) buffer to a final concentration of 2 to 3%; ammonium sulfate (to 40% saturation) was added, and the resulting solution was placed in cellophane tubes. The enzyme solution was dialyzed against 0.1 M sodium acetate buffer (pH 5) containing ammonium sulfate was added dropwise to the outside solution of the cellophane tube, and the concentration of ammonium sulfate in the cellophane tube increased gradually. The crystals of enzyme were formed in the cellophane tube when the concentration reached approximately 50% saturation. After the enzyme solution was concentrated in the freezer, the crystals were obtained. The activity of the crystalline enzyme was inhibited by Hg²⁺, Ag⁺, Zn²⁺, and KMnO₄.     

Milk-clotting Enzyme from Microorganisms: V. Purification and Crystallization of Mucor Rennin from Mucor pusillus var. Lindt.1

A rennin crystal was obtained from the crude milk-clotting enzyme of Mucor pusillus var. Lindt. The crude enzyme was purified by using columns of Amberlite CG-50, diethylaminoethyl Sephadex A-50, and Sephadex G-100. This purified enzyme was dissolved in 0.1 M sodium acetate (pH 5.0) buffer to a final concentration of 2 to 3%; ammonium sulfate (to 40% saturation) was added, and the resulting solution was placed in cellophane tubes. The enzyme solution was dialyzed against 0.1 M sodium acetate buffer (pH 5) containing ammonium sulfate was added dropwise to the outside solution of the cellophane tube, and the concentration of ammonium sulfate in the cellophane tube increased gradually. The crystals of enzyme were formed in the cellophane tube when the concentration reached approximately 50% saturation. After the enzyme solution was concentrated in the freezer, the crystals were obtained. The activity of the crystalline enzyme was inhibited by Hg²⁺, Ag⁺, Zn²⁺, and KMnO₄.     

Involvement of an N-Acetylglucosaminidase in Autolysis of Propionibacterium freudenreichii CNRZ 725

Propionibacterium freudenreichii plays an important role in Swiss cheese ripening (it produces propionic acid, acetic acid, and CO₂). Moreover, autolysis of this organism certainly contributes to proteolysis and lipolysis of the curd because intracellular enzymes are released. By varying external factors, we determined the following conditions which promoted autolysis of both whole cells and isolated cell walls of P. freudenreichii CNRZ 725: (i) 0.1 M potassium phosphate buffer (pH 5.8) at 40°C and (ii) 0.05 to 0.1 M KCl at 40°C. We found that early-exponential-phase cells possessed the highest autolytic activity. It should be emphasized that the pH of Swiss cheese curd (pH 5.5 to 5.7) is near the optimal pH which we determined. Ultrastructural observations by electron microscopy revealed a 16-nm-thick homogeneous cell wall, as well as degradation of the cell wall that occurred concomitantly with cell autolysis. In the presence of 0.05 M potassium chloride, there was a great deal of isolated cell wall autolysis (the optical density at 650 nm decreased 77.5% ± 7.3% in 3 h), and one-half of the peptidoglycan material was released. Finally, the main autolytic activity was due to an N-acetylglucosaminidase activity.     

Bacillus thuringiensis parasporal crystal toxin: Dissociation into toxic low molecular weight peptides

Parasporal crystals of Bacillus thuringiensis can be dissociated into low molecular weight peptides (< 5000 daltons) by dissolving them in 0.1 M N-morpholinopropane sulfonic acid buffer pH 7.8 containing 0.05 M dithiothreitol and 2M–4M KSCN, or by performic acid oxidation. The peptides obtained by dissolving in KSCN were still toxic to silkworm larvae.     

Degradation of Hepatic Stearyl CoA Δ9-Desaturase

Δ⁹-Desaturase is a key enzyme in the synthesis of desaturated fatty acyl-CoAs. Desaturase is an integral membrane protein induced in the endoplasmic reticulum by dietary manipulations and then rapidly degraded. The proteolytic machinery that specifically degrades desaturase and other short-lived proteins in the endoplasmic reticulum has not been identified. As the first step in identifying cellular factors involved in the degradation of desaturase, liver subcellular fractions of rats that had undergone induction of this enzyme were examined. In livers from induced animals, desaturase was present in the microsomal, nuclear (P-1), and subcellular fractions (P-2). Incubation of desaturase containing fractions at physiological pH and temperature led to the complete disappearance of the enzyme. Washing microsomes with a buffer containing high salt decreased desaturase degradation activity. N-terminal sequence analysis of desaturase freshly isolated from the P-1 fraction without incubation indicated the absence of three residues from the N terminus, but the mobility of this desaturase preparation on SDS-PAGE was identical to the microsomal desaturase, which contains a masked N terminus under similar purification procedures. Addition of concentrated cytosol or the high-salt wash fraction did not enhance the desaturase degradation in the washed microsomes. Extensive degradation of desaturase in the high-salt washed microsomes could be restored by supplementation of the membranes with the lipid and protein components essential for the reconstituted desaturase catalytic activity. Lysosomotrophic agents leupeptin and pepstatin A were ineffective in inhibiting desaturase degradation. The calpain inhibitor, N-acetyl-leucyl-leucyl-methional, or the proteosome inhibitor, Streptomyces metabolite, lactacystin, did not inhibit the degradation of desaturase in the microsomal or the P-1 and P-2 fractions. These results show that the selective degradation of desaturase is likely to be independent of the lysosomal and the proteosome systems. The reconstitution of complete degradation of desaturase in the high-salt–washed microsomes by the components essential for its catalytic activity reflects that the degradation of this enzyme may depend on a specific orientation of desaturase and intramembranous interactions between desaturase and the responsible protease.     

Determination of pH and oxygen status in the guts of lower and higher termites

The pH of the gut was determined in vitro in six species of termite by means of indicator dyes and a pH electrode. In the lower termite Zootermopsis nevadensis the pH was close to neutrality throughout, ranging 6.0–7.5, but in Reticulitermes lucifugus, acid conditions (pH 5.5–6.0) occurred in the crop and paunch. In the higher termites Nasutitermes costalis, Microcerotermes arboreus, Cubitermes severus and Procubitermes aburiensis, there was a common trend of incresing pH from the crop, which was slightly or moderately acidic, to the first proctodaeal segment (P1) where moderately (N. costalis) and strongly (M. arboreus, C. severus and P. aburiensis) alkaline conditions prevailed. A pH of 10.4 was measured in C. severus, equalling the highest recorded in any insect. In the posterior regions of the hindgut there was a return towards neutral or acidic conditions. When termite guts were homogenized with air-saturated Ringer's solution, the dissolved O₂ content of the Ringer's was reduced. This was shown to be largely attributable to an oxygen deficit generated within the gut in situ. The combined effects of strongly alkaline conditions and reduced oxygen tension on digestive processes and intestinal micro-organisms are discussed.     

Calcium oxalate formation is a rapid and reversible process inLemna minor L.

Summary Lemna minor root tips form raphide Ca oxalate crystals in both the root cap and root proper. An in vivo system was developed to examine raphide crystal bundle formation in the root of intact plants. By increasing the exogenous Ca concentration, crystal bundle formation could be induced. Entire new crystal bundles could be formed within 30 minutes of an inductive stimulus. The process was reversible with recently formed crystal bundles being dissolved over a period of about 3 hours. Older, previously existing bundles were more resistant to dissolution. The calmodulin antagonists, chlorpromazine and trifluoperazine (300 M), prevented crystal formation and caused dissolution of some crystal bundles, even in the presence of exogenous Ca. When the antagonists were flushed out and replaced with fresh medium, crystals were formed in cells where dissolution had occurred under the influence of the antagonists. The Ca ionophore A 23187 (20 M) caused slow dissolution of crystal bundles, even in the presence of exogenous Ca. A model describing the control of and physiological significance of Ca oxalate formation in plants is presented and discussed with respect to the results obtained in this study.     

Characterization of crystal prototoxin and an activated toxin from Bacillus thuringiensis var. entomocidus

Toxin crystals from Bacillus thuringiensis var. entomocidus were lysed by proteases present in gut juice from larval Philosamia ricini (Lepidoptera) with the release of a prototoxin and an activated toxin. Some of the toxic activity of the lysate was complexed with a pheophytinlike pigment and this complex was retarded on filtration through Sephadex gels. A method is described for the removal of the pheophytin from larval protease preparations. The prototoxin has a molecular weight greater than 200,000, determined by its exclusion from Sephadex G-200 and on activation produces a toxin of molecular weight about 50,000. Isoelectric focusing of crystal lysates gave pI values of 4.5 and 6.4 for the prototoxin and toxin, respectively. The antigenic composition of the prototoxin and of the toxin are compared and the significance of antigen h as an indicator of activation is discussed.     

The Importance of pH in Regulating the Function of the Fasciola hepatica Cathepsin L1 Cysteine Protease

The helminth parasite Fasciola hepatica secretes cathepsin L cysteine proteases to invade its host, migrate through tissues and digest haemoglobin, its main source of amino acids. Here we investigated the importance of pH in regulating the activity and functions of the major cathepsin L protease FheCL1. The slightly acidic pH of the parasite gut facilitates the auto-catalytic activation of FheCL1 from its inactive proFheCL1 zymogen; this process was ∼40-fold faster at pH 4.5 than at pH 7.0. Active mature FheCL1 is very stable at acidic and neutral conditions (the enzyme retained ∼45% activity when incubated at 37°C and pH 4.5 for 10 days) and displayed a broad pH range for activity peptide substrates and the protein ovalbumin, peaking between pH 5.5 and pH 7.0. This pH profile likely reflects the need for FheCL1 to function both in the parasite gut and in the host tissues. FheCL1, however, could not cleave its natural substrate Hb in the pH range pH 5.5 and pH 7.0; digestion occurred only at pH≤4.5, which coincided with pH-induced dissociation of the Hb tetramer. Our studies indicate that the acidic pH of the parasite relaxes the Hb structure, making it susceptible to proteolysis by FheCL1. This process is enhanced by glutathione (GSH), the main reducing agent contained in red blood cells. Using mass spectrometry, we show that FheCL1 can degrade Hb to small peptides, predominantly of 4–14 residues, but cannot release free amino acids. Therefore, we suggest that Hb degradation is not completed in the gut lumen but that the resulting peptides are absorbed by the gut epithelial cells for further processing by intracellular di- and amino-peptidases to free amino acids that are distributed through the parasite tissue for protein anabolism.     

Isolation,partial purification,and some properties of protease I from a thermophilic mold Thermoascus aurantiacus var. levisporus

When the thermophilic mold Thermoascus aurantiacus var. levisporus was grown in a modified Czapek Dox medium containing casein the filtrate was found to contain proteolytic activity. The maximum production of activity occurred at 50 ° C in a medium containing 8% casein. The filtrate was subjected to ammonium sulfate fractionation and chromatography on DEAE-cellulose. Two proteases were separated. No further work was done on protease II. Protease I was further purified by gel filtration on Sephadex G 100–200. It showed a 40-fold purification with a final recovery of approximately 25%. It is a neutral protease with a pH optimum at 7.0. The optimal activity of the enzyme occurred in 0.02 M phosphate buffer but was completely inhibited at a concentration of 0.1 M. The optimum temperature for casein hydrolysis was found to be 55 ° C. The enzyme was inhibited by Hg⁺⁺ but was greatly stimulated by Cu⁺⁺ and mercaptoethanol. Metallo and sulfhydryl agents had no significant effect on enzyme activity.     

Degradation of the parasporal crystal produced by Bacillus thuringiensis var. kurstaki

Degradation products of the parasporal crystals of Bacillus thuringiensis var. kurstaki obtained by treatment with alkali, gut juice from larvae of Bombyx mori, and various plant and mammalian enzymes were compared for elution pattern, approximate molecular weight (MW), and toxicity. The results indicated that with alkaline treatment the most toxic extract was obtained with 0.05–0.1 M NaOH. Toxicity was found associated mainly with a protein peak of 230,000 MW although other toxic peaks were found in the tailing. Heat-treated midgut juice from larval B. mori gave similar results. After digestion of parasporal crystals with clarified midgut juice, five peaks causing toxicity and having MW of approximately 235,000, 67,000, 30,200, 5000, and 1000, respectively, were identified. Treatment of B. thuringiensis δ-endotoxin with α-chymotrypsin gave peaks causing mortality of approximate MW 235,000, 34,000, 5000, and 1000. Trypsin, pronase, carboxypeptidase, and enterokinase digests of the B. thuringiensis δ-endotoxin gave toxic components ranging from 235,000 to 30,000 MW. The protein protoxin molecules are digested to give small toxic subunits that may be of practical value for structural determinations and for molecular mode of action studies.     

The type 2 copper of ascorbate oxidase

Ascorbate oxidase, dissolved in Hepes or sodium phosphate buffers, was analyzed by EPR and activity measurements before and after storage at −30°C and 77 K. The specific activity was somewhat higher in the phosphate buffer, about 3500–3700 Dawson units compared to about 3100 units of the enzyme dissolved in Hepes buffer. After storage at −30°C the activity fell to 1400–2000 units in the phosphate buffer but only to 2600–2800 units in the Hepes buffer. Large changes occurred in the EPR spectrum of enzyme dissolved in the phosphate buffer after storing at −30°C suggesting an alteration of the type 2 copper site. These changes were, however, reverted when the samples were thawed and rapidly frozen at 77 K. Copper analysis showed that about 50% of the total copper was EPR detected. The type 2 Cu²⁺ EPR intensity was in most samples close to 25% of the total EPR intensity. This low contribution of type 2 Cu²⁺ could not be changed if the enzyme was completely reduced and reoxidized, treated with Fe(CN)₆³⁻, large excess of NaF, addition of 50% (v/v) ethylene glycol or dialyzed against 0.1 M Mes buffer (pH 5.5). Since the crystal structure shows that there are one each of types 1 and 2 copper in the monomers there must be another species with an EPR signal rather different from these two copper species. This signal is proposed to originate from some trinuclear centers. The EPR simulations show that it is possible to house a broad unresolved signal under the resolved type 1 and 2 signals so that the total integral becomes 50% of the total copper in the molecule.