Digestive proteases during development of larvae of red palm weevil, Rhynchophorus ferrugineus (Olivier, 1790) (Coleoptera: Curculionidae).

The evolution of digestive proteases during larval development of Rhynchophorus ferrugineus (Olivier, 1790) has been studied. A progressive increase of protease activity has been found. The optimum pH for proteolytic activity against azocasein was determined. Caseinograms revealed an active complex of alkaline proteases from the early stages of the development. From the apparent molecular masses, three groups of proteases have been found - high molecular-mass proteases, medium molecular-mass proteases, and low molecular-mass proteases. Studies using specific protease inhibitors showed the major presence of serine proteases in gut extracts. The results obtained from larvae reared on different substrates have made possible a comparative assessment of the influence of diet on the development of the digestive enzymatic system. Larvae fed on an artificial diet showed a complete pattern of digestive proteases. Data suggest that this diet seems to be suitable for future research with this insect pest.     

Bacillus thuringiensis proteases: Production and role in growth,sporulation and synergism

Bacillus thuringiensis (Bt) subspecies produces metalloproteases and serine alkaline proteases (endogenous) which affect sporulation and entomotoxicity against different insect orders. The production of Bt proteases is investigated in conventional medium and alternative substrates with future repercussions on Bt formulations and larval mortality. Relationship between protease activity and total cell count during Bt fermentation has been discussed while protease activity as a potential indicator of entomotoxicity has also been explored. In general, the proteases influence entomotoxicity in two divergent ways—processing of inactive protoxins to active toxin fractions (by endogenous Bt as well as exogenous larval midgut proteases) and degradation of protoxins to fragments which sometimes lack insecticidal activity (usually by Bt proteases). In fact, the function of endogenous (intra and extracellular) proteases is ambiguous and has been raising serious questions on their role in larval mortality. The review explores various schools of thoughts (traditional as well as advanced) to solve the enigma of protease interactions with crystal toxins at different levels (sporulation and insecticidal action).     

Monitoring of the production of monoclonal antibodies by hybridomas. Part II: Characterization and purification of acid proteases present in cell culture supernatant.

An acid proteolytic activity has been found in cell culture supernatants from long-term cultivations of hybridoma cells in hollow fibre bioreactors using serum free medium. The proteolytic activity has now been further characterized and the main results were: (1) the proteolytic activity showed a maximum around pH 3 and declined essentially to zero at pH 8; (2) the activity was specifically inhibited by pepstatin A; (3) the acid proteases consisted of two sets of closely spaced bands with apparent molecular weights of 40-45K and 90-105K, respectively; (4) the protease bands (40-45K and 90-105K) were reactive with anti-human cathepsin D; (5) the IEP values of the acid proteases ranged from pH 4.55-6.5. Furthermore, IgG incubation with the acid proteases isolated from hybridoma cells yielded fragments similar to those found in serum-free hollow fibre cell culture supernatants. These results indicated that the IgG fragments are the result of degradation by cathepsin D like proteases released after cell death or cell lysis.     

Design, synthesis, and biological evaluation of HIV/FIV protease inhibitors incorporating a conformationally constrained macrocycle with a small P3' residue

A series of norstatine-based HIV/FIV protease inhibitors incorporating a 15-membered macrocycle as a mimic of the tripeptide (Ala-Val-Phe), a motif with a small P3' residue elective against the FIV protease and the drug-resistant HIV proteases, has been synthesized. It was found that the macrocycle is important to the overall activity of the inhibitors. Certain inhibitors were developed expressing low nanomolar inhibitory activity against the HIV/FIV proteases and they are also effective against some drug-resistant as well as TL3-resistant HIV proteases.     

Proteases Released by Entomopathogenic Fungi Impair Phagocytic Activity, Attachment and Spreading of Plasmatocytes Isolated from Haemolymph of the Greater Wax Moth Galleria mellonella

Reliable assays for the in vitro quantification of the attachment and spreading of isolated Galleria mellonella plasmatocytes have been established. The effects of extracellular proteases released by the entomopathogenic fungi Metarhizium anisopliae and Beauveria bassiana on the phagocytic activity, spreading, attachment and cytoskeleton formation of isolated plasmatocytes of G. mellonella were examined to elucidate their putative role in the suppression of cellular immune responses in infected insects. In addition, the influence of different commercially available proteases on isolated plasmatocytes was studied. Among the proteases tested, the metalloprotease thermolysin produced the strongest inhibitory activity on plasmatocytes. The results obtained support the conclusion that invading fungal cells could interfere with the insect immune system via the release of proteases which affect cellular defence reactions. Isolated G. mellonella plasmatocytes incubated with fungal proteases had an impaired ability to ingest yeast cells and exhibited alterations in morphology and cytoskeleton formation. The effects were similar to those observed in plasmatocytes from infected larvae. The role of extracellular fungal proteases in the interactions of entomopathogens with the insect immune system is discussed.     

Study on the localization of proteases of mitochondrial origin

A marked proteolytic activity against casein can be demonstrated in rat liver mitochondria. The proteases degrading casein appear distributed between a sedimentable fraction (Po) and a soluble extract (So). Part of the soluble fraction activity, which may be recovered in the mitochondrial intermembrane space, results from a contamination by lysosomal proteases and can be eliminated by previously washing the mitochondria with digitonin. The pre-exposure to digitonin causes an enhancement of the caseinolytic activity associated with the membrane fragments, proving that this activity is not due to lysosomal enzymes. When rats have been injected in vivo with the compound 48/80 which, by degranulating the mast cells prevents contamination of the mitochondrial preparations by mast cell proteases, the membrane fraction (Po) retains a caseinolytic activity of the order of 80 per cent of the control preparations. A similar value of activity is observed in the membranes of brain mitochondria, isolated by a method which removes the rare mast cells they may contain. This shows that the greater part of the caseinolytic activity associated with the rat liver membranes does not originate from mast cell granules. Liver mitochondria pre-exposed to digitonin to eliminate lysosomal contaminants, have been subfractionated into matrix, intermembrane space, inner and outer membrane. Each of the fractions exhibits a caseinolytic activity, but the largest part is localized in the inner compartments of mitochondria: the matrix and the inner membrane. The optimal pH and the sensitivity to inhibitors of the proteases in the different compartments indicate that we are dealing with distinct enzymes.     

Estrogens, trypsin-like proteases and carboxypeptidases A and B in womb body tumors

The interrelationship between activity of trypsin-like proteases, carboxypeptidases A and B and the estrogen level in the womb body tissues has been studied. Results of correlation analysis suggest the existence of induction of trypsin-like proteases by estrogens; these proteases activate carboxypeptidases A and B from their zymogens. It has been shown, that carboxypeptidases may play essential role in the malignization process.     

Characterization of up-regulated proteases in an industrial recombinant Escherichia coli fermentation

Proteolytic degradation of recombinant proteins is an industry-wide challenge in host organisms such as Escherichia coli. These proteases have been linked to stresses, such as the stringent and heat-shock responses. This study reports the dramatic up-regulation of protease activity in an industrial recombinant E. coli fermentation upon induction. The objective of this project was to detect and characterize up-regulated proteases due to recombinant AXOKINE overexpression upon IPTG induction. AXOKINE is a 22-kDa protein currently in clinical trials as a therapeutic for obesity associated with diabetes. AXOKINE was expressed in both the soluble and inclusion body fractions in E. coli. Sodium dodecyl sulfate gelatin-polyacrylamide gel electrophoresis (SDS-GPAGE) was used to analyze the up-regulated protease activity. Western blot analysis showed degraded AXOKINE in both the soluble and insoluble fractions. Protease inhibitors were used to characterize the proteases. The proteases were ethylenediaminetetraacetic acid (EDTA) sensitive. The protease activity increased in the presence of phenyl-methyl sulfonyl-fluoride (PMSF), a serine protease inhibitor. The incubation buffer composition was varied with respect to Mg2+ and ATP, and the protease activity was ATP independent and Mg2+ dependent. A two-dimensional electrophoresis technique was used to estimate the pI of the proteases to be between 2.9 and 4.0.     

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.     

Cryogenic changes in proteases and antiprotease activities of buffalo (Bubalus bubalis) and cattle (Bos taurus) semen

The postthaw motility and fertility of buffalo and cattle semen is reduced when they are cryopreserved for artificial insemination. In the present study, an attempt was made to characterize the cryogenic changes in proteases and antiprotease activities (APA) of buffalo and cattle semen because these proteolysis regulators have been reported to be associated with sperm motility and fertility. Buffalo sperm demonstrated at least two major proteases of 45 and 42 kDa and three minor proteases of 95, 52, and 33 kDa. Similarly, cattle sperm demonstrated three major proteases of 62, 45, and 42 kDa and two minor proteases of 85 and 78 kDa. Buffalo seminal plasma demonstrated at least three major proteases of 78, 68, and 62 kDa and one minor protease of 98 kDa and cattle seminal plasma demonstrated one major protease of 68 kDa and two minor proteases of 78 and 75 kDa. Except for the 45 kDa protease, most of the previously mentioned proteases were found to be metalloproteinases. Compared with fresh sperm, cryopreserved buffalo and cattle sperm demonstrated a major protease band of 52/49 kDa and the activity of this protease reduced progressively with the duration of cryopreservation. On the contrary, compared with the fresh seminal plasma, cryopreserved buffalo and cattle semen extenders displayed the presence of a new protease band of 45 kDa and demonstrated that this protease activity was leaked from buffalo and cattle cryopreserved spermatozoa. Buffalo and cattle seminal plasmas displayed at least two major APA of 86 and 26 kDa. Compared with buffalo, cattle seminal plasma demonstrated significantly greater APA. Thus, the present study demonstrated the presence of an array of proteases and APA in buffalo and cattle semen and the activities of which changed during cryopreservation. The leakage of the specific protease activity and changes in the proteases and APA might be attributed to reduced motility and fertility of cryopreserved semen in these species.     

Interaction of intracellular proteases and immune mechanisms

Intracellular proteases play an important role both in nonspecific and specific immune reactions. Results concerning the interaction of these enzymes with phagocytic factors responsible for killing microorganisms are presented. In inflammatory foci, proteases released from destroyed leukocytes have been found to modify the function of antibodies present. They particularly reduce their complement fixation activity. Macrophages with differing proteolytic activity demonstrated diverse effects on the formation of antibodies tested by Jerne's plaque technique in young rabbits immunized with sheep erythrocytes. Whereas alveolar macrophages diminished antigen immunogenicity, peritoneal macrophages enhanced it.     

Activation of phospholipase A2 of human spermatozoa by proteases

The effect of various proteases (kallikrein, plasmin, and trypsin) on sperm phospholipase A₂ activity (PA₂: EC 3.1.1.4) has been studied. The addition of trypsin to spermatozoa, isolated and washed in the presence of the protease inhibitor benzamidine, increased PA₂ activity optimally with trypsin concentrations of 1.0–1.5 units/assay. In kinetic studies, all of the above proteases stimulated the deacylation of phosphatidylcholine (PC); in fresh spermatozoa, trypsin showed a higher activation potential than kallikrein or plasmin. In the presence of benzamidine, the activity remained at basal levels. Endogenous protease activity due to acrosin (control) resulted in an increase in PC deacylation compared to the basal level. The maximum activation time of PA₂ activity by proteases was 30 min. Natural protease inhibitors (soybean trypsin inhibitor and aprotinin) kept the PA₂ activity at basal levels and a by-product of kallikrein, bradykinin, did not significantly affect the control level. Protein extracts of fresh spermatozoa exhibited the same pattern of PA₂ activation upon the addition of proteases, thus indicating that the increase in PA₂ activity was not merely due to the release of the enzyme from the acrosome. All of these findings suggest the presence of a precursor form of phospholipase A₂ that can be activated by endogenous proteases (acrosin) as well by exogenous proteases present in seminal plasma and in follicular fluid (plasmin, kallikrein). Thus, this interrelationship of proteases and prophospholipase A₂ could activate a dormant fusogenic system: the resulting effect would lead to membrane fusion by lysolipids, key components in the acrosome reaction.     

Protease immobilization onto polyacrolein microspheres

Water-insoluble proteases were prepared by immobilizing papain and chymotrypsin onto the surface of polyacrolein microspheres with and without oligoglycines as spacer. The activity of immobilized proteases was found to be still high toward small ester substrates, but very low toward casein, a high-molecular-weight substrate. The relative activity of the immobilized proteases without spacer decreased gradually with the decreasing surface concentration of the immobilized proteases on the microspheres. On the contrary, the immobilized proteases with oligoglycine spacers gave an almost constant activity for the substrate hydrolysis within the surface concentration region studied and gave a much higher relative activity than those without any spacer. With the longer spacer, the immobilized enzymes showed a higher activity toward casein hydrolysis, whereas there was an optimum length for the spacer when hydrolysis was carried out toward the low-molecular-weight substrate. The thermal stability of the immobilized proteases was higher than that of the respective native proteases. The initial enzymatic activity of the immobilized proteases maintained almost unchanged without any elimination and inactivation of proteases, when the batch enzyme reaction was performed repeatedly, indicating the excellent durability.     

Detection,quantification, and characterization of proteases in recombinant Escherichia coli

Electrophoresis of crude cell extracts on PAGE gels in the presence of SDS copolymerized with a nonspecific protease substrate has been used to detect, characterize, and quantify intracellular proteases in recombinant Escherichia coli. After electrophoresis, the gels are incubated, SDS is removed, and protease activity is revealed by clear zones on the stained gel due to proteolysis of the nonspecific protease substrate (gelatin or casein). The method differentiates proteases based on activity and molecular weight.     

The human pathogen Leishmania donovani secretes a histidine acid phosphatase activity that is resistant to proteolytic degradation

Promastigotes of all pathogenic Leishmania species secrete acid phosphatase (SAcP) activity during their growth in vitro. It has been suggested that this enzyme may play a role in the survival of the parasite within its sandfly-vector host. To carry out such functions, SAcP would have to be relatively resistant to endogenous sandfly gut-proteases. Therefore, the current study was undertaken to ascertain whether L. donovani SAcP activity was affected by treatment with various proteases. Native L. donovani SAcP was treated with a variety of serine-, thiol-, metallo- and mixed-proteases and subsequently assayed for enzymatic activity. Of the eleven proteases tested, only bromelain and subtilisin treatments caused a pronounced reduction in SAcP activity. Treatment of SAcP with seven out of the remaining nine proteases, resulted in an overall enhancement in SAcP enzymatic activity ranging from approximately 10% (e.g. with trypsin) to > or = 90% (e.g. with ficin). The resistance of the Leishmania SAcP to various proteases may prolong its functional life within the sandfly gut and help to facilitate parasite infection in this host.     

Serglycin-independent Release of Active Mast Cell Proteases in Response to Toxoplasma gondii Infection

Earlier studies identified serglycin proteoglycan and its heparin chains to be important for storage and activity of mast cell proteases. However, the importance of serglycin for secretion and activity of mast cell proteases in response to parasite infection has been poorly investigated. To address this issue, we studied the effects on mast cell proteases in serglycin-deficient and wild type mice after peritoneal infection with the obligate intracellular parasite Toxoplasma gondii. In line with previous results, we found severely reduced levels of cell-bound mast cell proteases in both noninfected and infected serglycin-deficient mice. However, serglycin-deficient mice secreted mast cell proteases at wild type levels at the site of infection, and enzymatic activities associated with mast cell proteases were equally up-regulated in wild type and serglycin-deficient mice 48 h after infection. In both wild type and serglycin-deficient mice, parasite infection resulted in highly increased extracellular levels of glycosaminoglycans, including hyaluronan and chondroitin sulfate A, suggesting a role of these substances in the general defense mechanism. In contrast, heparan sulfate/heparin was almost undetectable in serglycin-deficient mice, and in wild type mice, it was mainly confined to the cellular fraction and was not increased upon infection. Furthermore, the heparan sulfate/heparin population was less sulfated in serglycin-deficient than in wild type mice indicative for the absence of heparin, which supports that heparin production is dependent on the serglycin core protein. Together, our results suggest that serglycin proteoglycan is dispensable for normal secretion and activity of mast cell proteases in response to peritoneal infection with T. gondii.     

Isolation and characterization of Perkinsus marinus proteases using bacitracin–sepharose affinity chromatography

Extracellular proteases were isolated from the cell-free culture supernatant of the oyster-pathogenic protozoan, Perkinsus marinus, by bacitracin–sepharose affinity chromatography. The purified protease fractions contained >75% of the protease activity initially loaded onto the column with very high specific activity that corresponded to 8–11-fold level of protease enrichment. The isolated proteases hydrolysed a variety of protein substrates including oyster plasma. All of the isolated P. marinus proteases belonged to the serine class of proteases. Inhibitor studies involving spectrophotometric assay and gelatin gel electrophoresis showed high levels of inhibition in the presence of the serine protease inhibitors PMSF, benzamidine and chymostatin, whereas inhibitors of cysteine, aspartic, and metalloproteases showed little or no inhibition. Spectrophotometric assays involving serine-specific peptide substrates further revealed that the isolated proteases belong to the class of chymotrypsin-like serine proteases. A 41.7 kDa monomeric, N-glycosylated, serine protease (designated Perkinsin) has been identified as the major P. marinus extracellular protease.     

Neutrophil serine proteases fine-tune the inflammatory response

Neutrophil serine proteases are granule-associated enzymes known mainly for their function in the intracellular killing of pathogens. Their extracellular release upon neutrophil activation is traditionally regarded as the primary reason for tissue damage at the sites of inflammation. However, studies over the past several years indicate that neutrophil serine proteases may also be key regulators of the inflammatory response. Neutrophil serine proteases specifically process and release chemokines, cytokines, and growth factors, thus modulating their biological activity. In addition, neutrophil serine proteases activate and shed specific cell surface receptors, which can ultimately prolong or terminate cytokine-induced responses. Moreover, it has been proposed that these proteases can impact cell viability through their caspase-like activity and initiate the adaptive immune response by directly activating lymphocytes. In summary, these studies point to neutrophil serine proteases as versatile mediators that fine-tune the local immune response and identify them as potential targets for therapeutic interventions.