Impact of cysteine proteinase inhibition in midgut fluid and oral secretion on fecundity and pollen consumption of western corn rootworm (Diabrotica virgifera virgifera)

Cysteine proteinases predominate in the midgut fluid (MF) and oral secretion (OS) of adult western corn rootworm (WCR) based on their mild acidic pH optima (pH 6.0), enhanced activities after treatment with thiol reducing agents, and inhibition by selective cysteine proteinase inhibitors (PIs). Four cysteine PIs including E-64, calpeptin, calpain inhibitor II, and leupeptin (also a serine PI) strongly inhibited azocaseinolytic activity in a dose-dependent manner in both the MF and OS. The most significant effect on adult female WCR of cysteine PI consumption with corn pollen was the reduction in fecundity, but female survival was not apparently affected. Mean fresh weights for all PI-fed females were also lower than control groups. All PI-fed groups [E-64, calpain inhibitor I (Cal I) and leupeptin] had a significantly lower daily egg production than respective corn pollen-fed controls. E-64 was more potent than leupeptin and Cal I on inhibiting fecundity, which correlates with their relative anti-proteinase potency in vitro. E-64, Cal I, and leupeptin at 1.5-2 nmol/beetle/day reduced fecundity down to 25-45% of control values. Reduced egg production by PI-fed beetles results from a combination of the direct inhibition of protein digestion and a post-ingestive negative feedback mechanism, which reduces food intake. The supplement of ten essential amino acids into the E-64-treated pollen enhanced up to 3.7-fold the number of eggs laid compared to the E-64-fed group without these amino acids, suggesting that egg production is dependent on the supply of essential amino acids from corn pollen proteolysis.     

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.     

AProteinase Responsible for Degrading Yolk Proteins in Tussah（Antheraea pernyi）

ＡＰｒｏｔｅｉｎａｓｅＲｅｓｐｏｎｓｉｂｌｅｆｏｒＤｅｇｒａｄｉｎｇＹｏｌｋＰｒｏｔｅｉｎｓｉｎＴｕｓｓａｈ（Ａｎｔｈｅｒａｅａｐｅｒｎｙｉ）ＺＨＡＯＸｉａｏ－ｆａｎ；（赵小凡）ＷＡＮＧＪｉｎ－ｘｉｎｇ（王金星）（ＤｅｐａｒｔｍｅｎｔｏｆＢｉｏｌｏｇ...     

柞蚕卵组织蛋白酶B纯化及性质

昆虫卵内蛋白酶在胚胎发育中水解卵黄蛋白,为胚胎发育提供氨基酸,昆虫中已报道过几类卵蛋白酶,如家蚕中半胱氨酸蛋白酶和丝氨酸蛋白酶等。但是,目前尚不清楚这些蛋白酶是否存在于其他鳞翅目昆虫。了解这些蛋白酶的作用机理可以为我们提供害虫防治的新方法。并且,由于蛋白水解在许多生理过程中具有重要作用,如蛋白质的成熟和转运、受精、萌芽、肿瘤转移和其他形态发生等。因此,阐明这些蛋白酶的生物功能具有重要意义。由于（ｉ蚕卵粒大产卵量也很大,因此被选作研究鳞翅目昆虫卵蛋白酶的材料,我们希望通过对数种昆虫卵内蛋白酶的研究、找出卵黄蛋白水解的一般规律。在我们前一篇文章中报道了（ｉ蚕组织蛋白酶Ｂ的鉴定,该蛋白酶属于半胱氨酸蛋白酶类的组织蛋或最适ｐＨ为３．５,可被Ｅ－６４抑制。本文报道蛋白酶的纯化和性质。经过５步纯化过程,从（ｉ蚕卵母细胞中纯化出组织蛋白酶Ｂ,用ＳＤＳ聚丙烯酰胺凝胶电泳测得蛋白酶的亚基分子量在４７ｋＤａ左右。纯化的蛋白酶活性可被Ｅ－６４和Ｌｅｕｐｅｐｔｉｎ抑制。因此,该蛋白酶属于半胱氨酸蛋白酶。天冬氨酸蛋白酶特异性抑制剂ｐｅｐｓｔａｔｉｎ不抑制其活性。其活性可被ＤＦＰ和ＰＭＳＦ部分抑制。这两种抑制剂通常抑制丝氨酸蛋白酶活性     

Digestive proteinase activity of the Khapra beetle, Trogoderma granarium Everts (Coleoptera: Dermestidae)

The khapra beetle, Trogoderma granarium, is one of the most important stored product pests worldwide. A study of digestive proteinases in T. granarium was performed to identify potential targets for proteinaceous biopesticides, such as proteinase inhibitors. The pH of guts was determined by addition of pH indicator solutions to broken open gut regions. The last instar larvae were dissected in cold distilled water and the whole guts were cleaned from adhering unwanted tissues. The pooled gut homogenates were centrifuged and the supernatants were used in the subsequent enzyme assay. Total proteinases activity of the gut homogenates was determined using the protein substrate azocasein. Optimal azocasein hydrolysis by luminal proteinases of the larvae of T. granarium was highly alkaline in pH 10-10.5, although the pH of luminal contents was slightly acidic (pH 6.5). The extract showed the highest activity at 55 degrees C (pH 6.5), 45 degrees C (pH 8) and 30 degrees C (pH 10). The proteolytic activity was strongly inhibited in the presence of phenylmethylsulphonyl fluoride (82.33+/-4.37% inhibition). This inhibition was decreased with increasing of the pH of assay incubating medium. N-p-tosyl-L-lysine chloromethyl ketone (51.6+/-3.3% inhibition) and N-tosyl-L-phenylalanine chloromethyl ketone (27.23+/-4.37 % inhibition) showed inhibitory effect on proteolysis. Addition of thiol activators dithiothreitol and L-cysteine had not enhanced azocaseinolytic activity. The data suggest that protein digestion in the larvae of T. granarium is primarily dependent on serine proteinases; trypsin- and chymotrypsin-like proteinases.     

Digestive proteases in bodies and faeces of the two-spotted spider mite,Tetranychus urticae

Digestive proteases of the phytophagous mite Tetranychus urticae have been characterised by comparing their activity in body and faecal extracts. Aspartyl, cathepsin B- and L-like and legumain activities were detected in both mite bodies and faeces, with a specific activity of aspartyl and cathepsin L-like proteases about 5- and 2-fold higher, respectively, in mite faeces than in bodies. In general, all these activities were maintained independently of the host plant where the mites were reared (bean, tomato or maize). Remarkably, this is the first report in a phytophagous mite of legumain-like activity, which was characterised for its ability to hydrolyse the specific substrate Z-VAN-AMC, its activation by DTT and inhibition by IAA but not by E-64. Gel free nanoLC–nanoESI-QTOF MS/MS proteomic analysis of mite faeces resulted in the identification of four cathepsins L and one aspartyl protease (from a total of the 29 cathepsins L, 27 cathepsins B, 19 legumains and two aspartyl protease genes identified the genome of this species). Gene expression analysis reveals that four cathepsins L and the aspartyl protease identified in the mite faeces, but also two cathepsins B and two legumains that were not detected in the faeces, were expressed at high levels in the spider mite feeding stages (larvae, nymphs and adults) relative to embryos. Taken together, these results indicate a digestive role for cysteine and aspartyl proteases in T. urticae. The expression of the cathepsins B and L, legumains and aspartyl protease genes analysed in our study increased in female adults after feeding on Arabidopsis plants over-expressing the HvCPI-6 cystatin, that specifically targets cathepsins B and L, or the CMe trypsin inhibitor that targets serine proteases. This unspecific response suggests that in addition to compensation for inhibitor-targeted enzymes, the increase in the expression of digestive proteases in T. urticae may act as a first barrier against ingested plant defensive proteins.     

Invasion of ras-transformed breast epithelial cells depends on the proteolytic activity of cysteine and aspartic proteinases

It has been suggested that the lysosomal proteinases cathepsin B, L and D participate in tumour invasion and metastasis. Whereas for cathepsins B and L the role of active enzyme in invasion processes has been confirmed, cathepsin D was suggested to support tumour progression via its pro-peptide, rather than by its proteolytic activity. In this study we have compared the presence of active cathepsins B, L and D in ras-transformed human breast epithelial cells (MCF-10A neoT) with their ability to invade matrigel. In this cell line high expression of all three cathepsins was detected by immunofluorescence microscopy. The effect of proteolytic activity on cell invasion was studied by adding various natural and synthetic cysteine and aspartic proteinase inhibitors. The most effective compound was chicken cystatin, a general natural inhibitor of cysteine proteinases, (82.8+/-1.6% inhibition of cell invasion), followed by the synthetic inhibitor trans-epoxysuccinyl-L-leucylamido-(4-guanidino) butane (E-64). CLIK-148, a specific inhibitor of cathepsin L, showed a lower effect than chicken cystatin and E-64. Pepstatin A weakly inhibited invasion, whereas the same molar concentrations of squash aspartic proteinase (SQAPI)-like inhibitor, isolated from squash Cucurbita pepo, showed significant inhibition (65.7+/-1.8%). We conclude that both cysteine and aspartic proteinase activities are needed for invasion by MCF-10A neoT cells in vitro.     

棉铃虫卵内蛋白酶性质研究

在棉铃虫Helicoverpa armigera卵母细胞内检测到蛋白酶活性,其作用Ph在酸性范围,酶活性受E-64、Pepstatin和iPr₂P-F等多种抑制剂抑制。在Ph4.0时蛋白酶对牛血红蛋白有较高水解率。抗蓖麻蚕Philosamia cynthia ricini卵半胱氨酸蛋白酶血清和抗蓖麻蚕卵天冬氨酸蛋白酶血清可以识别棉铃虫卵内成分。实验结果表明;棉铃虫卵内可能存在半胱氨酸蛋白酶类、丝氨酸蛋白酶类和天冬氨酸蛋白酶类,并且与蓖麻蚕卵内蛋白酶有一定的相似性。     

Exploring the role of cathepsin in rheumatoid arthritis

Rheumatoid arthritis (RA) is a chronic inflammatory disease which is marked by leukocytes infiltration inside synovial tissue, joints and also inside synovial fluid which causes progressive destruction of joint cartilage. There are numerous genetical and lifestyle factors, responsible for rheumatoid arthritis. One such factor can be cysteine cathepsins, which act as proteolytic enzymes. These proteolytic enzyme gets activated at acidic pH and are found in lysosomes and are also termed as cysteine proteases. These proteases belong to papain family and have their elucidated role in musculoskeletal disorders. Numerous cathepsins have their targeted role in rheumatoid arthritis. These proteases are secreted through various cell types which includes matrix metalloproteases and papain like cysteine proteases. These proteases can potentially lead to bone and cartilage destruction which causes an immune response in case of inflammatory arthritis.     

Proteolytic gut activities in the rice water weevil,Lissorhoptrus brevirostris Suffrian (Coleoptera: Curculionidae)

Digestive endoprotease activities of the rice water weevil, Lissorhoptrus brevirostris Suffrian (Coleoptera: Curculionidae), were characterized based on the ability of gut extracts to hydrolyze specific synthetic substrates, optimal pH, and hydrolysis sensitivity to protease inhibitors. Larvae of this species were found to use a complex proteolytic system that includes cathepsin D-, cathepsin B-, trypsin-, and chymotrypsin-like activities. Trypsin-like activity was evenly distributed among the anterior, middle, and posterior portions of the gut, whereas cathepsin B- and cathepsin D-like activities were mainly located in the anterior and middle sections, and the chymotrypsin-like activity was highest in the middle and posterior sections. Gelatin-containing native-PAGE gels indicated the presence of several aspartyl, cysteine, and serine protease forms and confirmed the spatial organization of the proteolytic digestive process.     

Cysteine Cathepsins Activate ELR Chemokines and Inactivate Non-ELR Chemokines

Cysteine cathepsins are primarily lysosomal proteases involved in general protein turnover, but they also have specific proteolytic functions in antigen presentation and bone remodeling. Cathepsins are most stable at acidic pH, although growing evidence indicates that they have physiologically relevant activity also at neutral pH. Post-translational proteolytic processing of mature chemokines is a key, yet underappreciated, level of chemokine regulation. Although the role of selected serine proteases and matrix metalloproteases in chemokine processing has long been known, little has been reported about the role of cysteine cathepsins. Here we evaluated cleavage of CXC ELR (CXCL1, -2, -3, -5, and -8) and non-ELR (CXCL9–12) chemokines by cysteine cathepsins B, K, L, and S at neutral pH by high resolution Tris-Tricine SDS-PAGE and matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Whereas cathepsin B cleaved chemokines especially in the C-terminal region, cathepsins K, L, and S cleaved chemokines at the N terminus with glycosaminoglycans modulating cathepsin processing of chemokines. The functional consequences of the cleavages were determined by Ca²⁺ mobilization and chemotaxis assays. We show that cysteine cathepsins inactivate and in some cases degrade non-ELR CXC chemokines CXCL9–12. In contrast, cathepsins specifically process ELR CXC chemokines CXCL1, -2, -3, -5, and -8 N-terminally to the ELR motif, thereby generating agonist forms. This study suggests that cysteine cathepsins regulate chemokine activity and thereby leukocyte recruitment during protective or pathological inflammation.     

Effect of proteinase inhibitors on Indian alfalfa weevil (<Emphasis Type="Italic">Hypera postica</Emphasis> Gyll.) growth and development

Three families of proteinase inhibitors, namely, serine, cysteine (thiol) and aspartic (carboxyl) were examined for their inhibitory effects on growth and development of Indian alfalfa weevil (Coleoptera: Curculionidae). Proteinase inhibitors are considered as a part of alternate strategy to control the herbivorous insect as they inhibit the digestive enzymes of the insects. Larval leaf feeding, survival, pupation and adult emergence were significantly decreased by pHMB, (p-hydroxy-mercuribenzoic acid), cystatin and E-64 (trans-epoxysuccinyl-l-leucylamido-(4guanidino)-butane) belonging to cysteine class of proteinases, at a concentration of 0.1 and 0.5%. Serine and aspartic classes of inhibitors have low detrimental effects on larvae. The results demonstrate the inhibitory response of specific proteinase inhibitors on alfalfa weevil larval leaf feeding, survival, pupation and adult emergence. Weevil resistant species, namely, Medicago scutellata showed high level of leaf consumption under forced feeding in vivo bioassay indicated the presence of resistance factors other than proteinase inhibitors.     

Cloning and functional expression of a Boophilus microplus cathepsin L-like enzyme

A cysteine proteinase gene homologous to cathepsins L genes was isolated from a B. microplus cDNA library. The precursor protein deduced from the nucleotide sequence contains 332 amino acid residues consisting of a signal sequence (pre-region), a pro-region and a mature proteinase. The DNA fragment coding for the proenzyme was cloned and expressed using the E. coli expression vector pMAL-p. The recombinant protein (MBP+PROCP) once activated is able to hydrolyze synthetic substrates as well as protein substrates like hemoglobin, vitellin and gelatin. Its optimal enzymatic activity on both fluorogenic and protein substrates was found to occur at an acidic pH. Expression of the proteinase gene was tested by RT-PCR with tick larvae RNA. Detection of amplified sequences indicates that the gene is expressed at this stage of the tick life cycle and the molecule is therefore potentially a target for chemotherapy or an immunogen in a vaccine.     

Plasmodium falciparum: Differential Sensitivity In Vitro to E-64 (Cysteine Protease Inhibitor) and Pepstatin A (Aspartyl Protease Inhibitor)

ABSTRACT We investigated the effect of a cysteine proteinase inhibitor (E-64) and an aspartyl proteinase inhibitor (Pepstatin A) on asexual erythrocytic stages of Plasmodium falciparum in culture. These two protease inhibitors showed different patterns of activity. E-64 acted preferentially against trophozoite and schizont stages. After 48 h incubation at high concentrations of E-64 (28, 140, 280 μM), growth was totally abolished and the parasites presented characteristic enlarged food vacuoles. Morphological alterations were also seen after shorter incubation periods (6 h at 28 μM) or 12 h at the inhibitory concentration 50% (12 μM), but an additional culture period (24 h) in inhibitor-free medium allowed normal parasite development, demonstrating a parasitostatic effect. E-64 acts on parasite multiplication; the normal merozoite maturation was altered and the normal reinvasion process partially impaired. Pepstatin A used at the inhibitory concentration 50% (4 μM) killed the parasites before trophozoite development and had a major effect on schizonts maturation. No altered parasite development occurred during an additional culture period without Pepstatin A, demonstrating a parasiticidal effect. E-64 and Pepstatin A used in combination inhibit the parasite growth with a strong synergistic effect.     

Purification and characterization of a cysteine proteinase from silkworm eggs

Eggs of the silkworm, Bombyx mori, contain a high level of a proteinase which is most active in acidic pH region. The proteinase was purified from an extract of eggs by a six-step procedure which included conventional chromatographic fractionations. The molecular mass of the proteinase was estimated to be 350 kDa by gel filtration and 47 kDa by electrophoresis on sodium dodecyl sulfate/polyacrylamide gels, suggesting an octameric structure. The amino acid composition was found to resemble that of mammalian lysosomal cysteine proteinases, in particular cathepsin L. The NH2-terminal 10-residue sequence is Val-Gln-Phe-Phe-Asp-Leu-Val-Lys-Glu-Glu-. The enzyme appears to be a member of the class of cysteine proteinases since it was strongly inhibited by sulfhydryl-reactive compounds and N-[N-(1,3-trans-carboxyoxiran-2-carbonyl)-L-leucyl]-agmatine (E-64). The enzyme hydrolyzed various protein substrates, such as hemoglobin, vitellogenin, vitellin, and lipophorin, with maximal activity around pH 3-3.5. The specificity of the cleavage sites in the oxidized B chain of insulin was rather well defined and there was high affinity for hydrophobic residues at the P2 and P3 positions. The cysteine proteinase is thought to be involved in protein degradation during embryonic development of silkworm eggs.     

Recombinant cathepsin E has no proteolytic activity at neutral pH

Cathepsin E (CatE) is a major intracellular aspartic protease reported to be involved in cellular protein degradation and several pathological processes. Distinct cleavage specificities of CatE at neutral and acidic pH have been reported previously in studies using CatE purified from human gastric mucosa. Here, in contrast, we have analyzed the proteolytic activity of recombinant CatE at acidic and neutral pH using two separate approaches, RP-HPLC and FRET-based proteinase assays. Our data clearly indicate that recombinant CatE does not possess any proteolytic activity at all at neutral pH and was unable to cleave the peptides glucagon, neurotensin, and dynorphin A that were previously reported to be cleaved by CatE at neutral pH. Even in the presence of ATP, which is known to stabilize CatE, no proteolytic activity was observed. These discrepant results might be due to some contaminating factor present in the enzyme preparations used in previous studies or may reflect differences between recombinant CatE and the native enzyme.     

Involvement of cathepsin B- and L-like proteinases in silk gland histolysis during metamorphosis of Bombyx mori

To identify proteinases involved in programmed cell death of the silk glands of Bombyx mori, we measured enzyme activities in silk gland homogenates. Several peptidyl-4-methylcoumaryl-7-amides (MCAs) and bovine hemoglobin were used as substrates in the presence and absence of proteinase inhibitors. The hydrolysis of t-butyloxycarbonyl-Phe-Ser-Arg-MCA (Boc-FSR-MCA), benzyloxy-carbonyl-Phe-Arg-MCA (Z-FR-MCA), and Z-Arg-Arg-MCA (Z-RR-MCA) was optimal at pH 5.5, 5.0, and 5.5, respectively. It was stimulated by the sulfhydryl compounds or EDTA and inhibited by both cysteine proteinase inhibitors and a cathepsin B-specific inhibitor, l-3-trans-(propyl-carbamoyl)oxirane-2-carbonyl)-L-isoleucyl-L-prolin (CA-074). The hemoglobin hydrolysis at the optimum pH 3.5 was inactivated by cysteine proteinase inhibitors, but stimulated slightly by pepstatin. The cleavage of Arg-MCA (R-MCA) and Leu-MCA (L-MCA) at optimum pH of 7.0 was strongly inhibited by an aminopeptidase inhibitor, puromycin, and by sulfhydryl compounds. The Boc-FSR-MCA, Z-FR-MCA, Z-RR-MCA, and hemoglobin hydrolyzing activities increased in the silk glands dramatically after cocoon formation, while the R-MCA and L-MCA cleaving activities declined. The results strongly suggest the involvement of cathepsin B- and cathepsin L-like proteinases in the histolysis of the silk gland during metamorphosis.