Plant Specialized Metabolites in Hazelnut (Corylus avellana) Kernel and Byproducts: An Update on Chemistry, Biological Activity, and Analytical Aspects

Corylus avellana (hazelnut) is one of the most popular tree nuts on a worldwide basis. The main products of C. avellana are kernels, a nutritious food, with a high content of healthy lipids, contained in a hard shell. In recent years, along with the ongoing research carried out on hazelnut kernels, a growing interest has been addressed to the hazelnut byproducts including hazelnut skin, hazelnut hard shell, and hazelnut green leafy cover as well as hazelnut tree leaf. These byproducts deriving from the roasting, cracking, shelling/hulling, and harvesting processes have been found as a source of "phytochemicals" with biological activity. The aim of this review is to provide a comprehensive and critical update on the chemistry and biological activity of specialized metabolites occurring in hazelnut kernels and byproducts. Phenolics are the most abundant phytochemicals not only in the kernels, but also in other processing byproducts. Attention has been also devoted to taxane derivatives isolated from C. avellana leaves. An overview on the biological activity, mainly antioxidant, antiproliferative, and antimicrobial along with less common biological effects, has been provided, contributing to highlight C. avellana as a source of bioactive phytochemicals with the potential to exert beneficial effects on human health. Finally, analytical techniques for the quali-quantitative analysis of specialized metabolites occurring in the different parts of C. avellana have been reviewed.

Flavopereirine-An Alkaloid Derived from Geissospermum vellosii-Presents Leishmanicidal Activity In Vitro

Chemotherapy is limited in the treatment of leishmaniasis due to the toxic effects of drugs, low efficacy of alternative treatments, and resistance of the parasite. This work assesses the in vitro activity of flavopereirine on promastigote cultures of Leishmania amazonensis. In addition, an in silico evaluation of the physicochemical characteristics of this alkaloid is performed. The extract and fractions were characterized by thin-layer chromatography and HPLC-DAD, yielding an alkaloid identified by NMR. The antileishmanial activity and cytotoxicity were assayed by cell viability test (MTT). The theoretical molecular properties were calculated on the Molinspiration website. The fractionation made it possible to isolate a beta-carboline alkaloid (flavopereirine) in the alkaloid fraction. Moreover, it led to obtaining a fraction with greater antileishmanial activity, since flavopereirine is very active. Regarding the exposure time, a greater inhibitory effect of flavopereirine was observed at 24 h and 72 h (IC₅₀ of 0.23 and 0.15 μg/mL, respectively). The extract, fractions, and flavopereirine presented low toxicity, with high selectivity for the alkaloid. Furthermore, flavopereirine showed no violation of Lipinski's rule of five, showing even better results than the known inhibitor of oligopeptidase B, antipain, with three violations. Flavopereirine also interacted with residue Tyr-499 of oligopeptidase B during the molecular dynamics simulations, giving a few insights of a possible favorable mechanism of interaction and a possible inhibitory pathway. Flavopereirine proved to be a promising molecule for its antileishmanial activity.

In vitro effects of cysteine protease inhibitors on Trichomonas foetus-induced cytopathic changes in porcine intestinal epithelial cells

OBJECTIVE To investigate the effects of specific cysteine protease (CP) inhibitors on cytopathic changes to porcine intestinal epithelial cells induced by Tritrichomonas foetus isolated from naturally infected cats. SAMPLE T foetus isolates from 4 naturally infected cats and nontransformed porcine intestinal epithelial cells. PROCEDURES T foetus isolates were treated with or without 0.1 to 1.0mM of the CP inhibitors antipain, cystatin, leupeptin, and chymostatin and the vinyl sulfone inhibitors WRR-483 and K11777. In-gel gelatin zymography was performed to evaluate the effects of these inhibitors on CP activity of T foetus isolates. Each treated or untreated isolate was also cocultured with monolayers of porcine intestinal epithelial cells for 24 hours, and cytopathic effects of T foetus were evaluated by light microscopy and crystal violet spectrophotometry. RESULTS Results of in-gel gelatin zymography suggested an ability of WRR-483, K11777, and cystatin to target specific zones of CP activity of the T foetus isolates. These inhibitors had no effect on T foetus growth, and the cytopathic changes to the intestinal epithelium induced by all 4 T foetus isolates were significantly inhibited. CONCLUSIONS AND CLINICAL RELEVANCE This study revealed that certain protease inhibitors were capable of inhibiting regions of CP activity (which has been suggested to cause intestinal cell damage in cats) in T foetus organisms and of ameliorating T foetus-induced cytopathic changes to porcine intestinal epithelium in vitro. Although additional research is needed, these inhibitors might be useful in the treatment of cats with trichomonosis.

Affinity Crystallography: A New Approach to Extracting High-Affinity Enzyme Inhibitors from Natural Extracts

Natural products are an important source of novel drug scaffolds. The highly variable and unpredictable timelines associated with isolating novel compounds and elucidating their structures have led to the demise of exploring natural product extract libraries in drug discovery programs. Here we introduce affinity crystallography as a new methodology that significantly shortens the time of the hit to active structure cycle in bioactive natural product discovery research. This affinity crystallography approach is illustrated by using semipure fractions of an actinomycetes culture extract to isolate and identify a cathepsin K inhibitor and to compare the outcome with the traditional assay-guided purification/structural analysis approach. The traditional approach resulted in the identification of the known inhibitor antipain (1) and its new but lower potency dehydration product 2, while the affinity crystallography approach led to the identification of a new high-affinity inhibitor named lichostatinal (3). The structure and potency of lichostatinal (3) was verified by total synthesis and kinetic characterization. To the best of our knowledge, this is the first example of isolating and characterizing a potent enzyme inhibitor from a partially purified crude natural product extract using a protein crystallographic approach.

Phytomonas serpens: cysteine peptidase inhibitors interfere with growth, ultrastructure and host adhesion

In this study, we report the ultrastructural and growth alterations caused by cysteine peptidase inhibitors on the plant trypanosomatid Phytomonas serpens. We showed that the cysteine peptidase inhibitors at 10 microM were able to arrest cellular growth as well as promote alterations in the cell morphology, including the parasites becoming short and round. Additionally, iodoacetamide induced ultrastructural alterations, such as disintegration of cytoplasmic organelles, swelling of the nucleus and kinetoplast-mitochondrion complex, which culminated in parasite death. Leupeptin and antipain induced the appearance of microvillar extensions and blebs on the cytoplasmic membrane, resembling a shedding process. A 40 kDa cysteine peptidase was detected in hydrophobic and hydrophilic phases of P. serpens cells after Triton X-114 extraction. Additionally, we have shown through immunoblotting that anti-cruzipain polyclonal antibodies recognised two major polypeptides in P. serpens, including a 40 kDa component. Flow cytometry analysis confirmed that this cruzipain-like protein has a location on the cell surface. Ultrastructural immunocytochemical analysis demonstrated the presence of the cruzipain-like protein on the surface and in small membrane fragments released from leupeptin-treated parasites. Furthermore, the involvement of cysteine peptidases of P. serpens in the interaction with explanted salivary glands of the phytophagous insect Oncopeltus fasciatus was also investigated. When P. serpens cells were pre-treated with either cysteine peptidase inhibitors or anti-cruzipain antibody, a significant reduction of the interaction process was observed. Collectively, these results suggest that cysteine peptidases participate in several biological processes in P. serpens including cell growth and interaction with the invertebrate vector.

Enzymatic characterization of a cubilin-related serine proteinase from the hard tick Haemaphysalis longicornis

In the present study, we performed enzymatic characterization of Haemaphysalis longicornis serine proteinase (HlSP) with a view to shed light on the mechanisms of blood digestion in the hard ticks. Escherichia coli-expressed recombinant HlSP (rHlSP) was shown to potently hydrolyze the synthetic substrates Bz-(DL)-Arg-pNA, Z-Ala-Ala-Leu-pNA and Suc-Ala-Ala-Ala-pNA and yielded an activity of 31.5, 88.2 and 18.3 mumol/min/mg protein, respectively at an optimum temperature of 25 degrees C. However, the enzyme showed little activity to hydrolyze the substrates Suc-Arg-Pro-Phe-His-Leu-Leu-Val-Tyr-MCA and Pyr-Phe-Leu-pNA. The optimum pH for the enzyme was shown to be 4.0 to 5.0. Several inhibitors such as antipain, leupeptin and phenylmethylsulfonyl fluoride (PMSF), specific for serine proteinase were shown to inhibit enzyme activity by 20-82%, while E-64 (specific for cysteine proteinases) and pepstatinA (specific for aspartic proteinases) had shown only little inhibitory effects on it. This is the first report on enzymatic characterization of a functional serine proteinase from the hard ticks.

Involvement of secreted Aspergillus fumigatus proteases in disruption of the actin fiber cytoskeleton and loss of focal adhesion sites in infected A549 lung pneumocytes

Aspergillus fumigatus is an opportunistic pathogenic fungus that predominantly infects the respiratory system. Penetration of the lung alveolar epithelium is a key step in the infectious process. The cytoskeleton of alveolar epithelial cells forms the cellular basis for the formation of a physical barrier between the cells and their surroundings. This study focused on the distinct effects of A. fumigatus on the actin cytoskeleton of A549 lung pneumocytes. Of the 3 major classes of cytoskeletal fibers--actin microfilaments, microtubules, and intermediate filaments--only the actin cytoskeleton was found to undergo major structural changes in response to infection, including loss of actin stress fibers, formation of actin aggregates, disruption of focal adhesion sites, and cell blebbing. These changes could be specifically blocked in wild-type strains of A. fumigatus by the addition of antipain, a serine and cysteine protease inhibitor, and were not induced by an alkaline serine protease-deficient strain of A. fumigatus. Antipain also reduced, by approximately 50%, fungal-induced A549 cell detachment from the plates and reduction in viability. Our findings suggest that A. fumigatus breaches the alveolar epithelial cell barrier by secreting proteases that act together to disorganize the actin cytoskeleton and destroy cell attachment to the substrate by disrupting focal adhesions.

The calpain-calpastatin system and the calcium paradox in the isolated perfused pigeon heart

To examine whether the calpain-calpastatin system is activated during the calcium paradox in the isolated perfused pigeon heart, we separated the protease from its inhibitor calpastatin and studied its kinetic properties. The protease exhibits kinetic properties similar to those of mammalian m-calpains. Ca(2+) requirements for half and maximum activities are 220 microM and 2 mM, respectively. In the absence of Ca(2+) the protease is strongly activated by Mn(2+) or Sr(2+). In the presence of Ca(2+), Mn(2+) and Sr(2+) exhibit a synergistic effect; Mg(2+) and Ba(2+) have no effect, whereas Co(2+), Ni(2+) and Cd(2+) completely inhibit its activation. Furthermore, we measured the activity of calpain and calpastatin under either conditions inducing a calcium paradox, or protecting the heart against this phenomenon. Although the calpain/calpastatin ratio is lowered during Ca(2+) depletion, during Ca(2+) repletion it is markedly inverted. Calpain activation during reperfusion is inhibited by the presence of 200 microM Mn(2+) or Ba(2+), in the Ca(2+)-free medium. Gel filtration of calpastatin, isolated from either untreated hearts or during Ca(2+) depletion, produces two main peaks of ñ150 and 40 kDa of molecular mass, respectively, whereas calpastatin isolated during the 2(nd) min of reperfusion appears to be shifted to the 150 kDa form. All the above data suggest that this system may be involved in the induction of the calcium paradox in pigeon heart.

The effect of class-specific protease inhibitors on the stabilization of B-type natriuretic peptide in human plasma

BACKGROUND

B-type natriuretic peptide (BNP) is a cardiac hormone that regulates hemodynamic equilibrium. In the circulation, its activity is controlled by proteolytic factors. Accurate measurement of BNP in a patient's plasma may be affected by degradation due to proteolysis.

OBJECTIVE

We report on the identification and performance of classes of protease inhibitors that stabilize BNP in plasma.

DESIGN AND METHODS

Using the Bayer ADVIA Centaur BNP assay, we measured the effect of arginine, serine and/or specific kallikrein protease inhibitors (PIs) on exogenous spiked or endogenous BNP in patient plasma.

RESULTS

Compared to controls without inhibitor, all PIs were capable, to varying degrees, of retarding the rate of proteolytic degradation. The kallikrein-specific inhibitor, D-Phe-Phe-Arg-chloromethylketone (PPACK II) was most effective as a single constituent and was able to eliminate BNP degradation in patient samples for up to 6-10 days when stored at 2-8 degrees C.

CONCLUSIONS

The stability of BNP was markedly increased in the presence of kallikrein-specific PPACK II and a broad spectrum of serine PIs. Use of these compounds offers a simple method of extending sample handling and storage of plasma samples containing BNP.

Increased levels of UV-induced protease activity in human UVAP-1 cells exposed to gravity-changing stress: involvement of E-64-sensitive proteases in suppression of UV mutagenicity

Under the 1G condition, the increase in antipain-sensitive protease activity promptly after UV (mainly 254 nm wavelength) irradiation in cultured human cells is detected and found to be one of the intriguing events involved in suppression of cell mutability. It was found that two cell lines, RSa and its variant UVAP-1 cells are applicable; the former is hypermutable and not susceptible to protease activation, while the latter is hypomutable and susceptible. In the present study it was investigated whether the increase in protease activity by UV irradiation is also observed in hypomutable human UVAP-1 cells exposed to gravity-changing stress and whether the increase is involved in suppression of UV mutagenicity. Exposure of human UVAP-1 cells to gravity-changing stress such as free-fall and parabolic flight prior to UV irradiation resulted in a pronounced increase in protease activity, but not to hypergravity conditions (2 and 10G) prior to UV irradiation. To characterize the proteases, components of lysates from the cells exposed to free-fall prior to UV irradiation were fractionated by high performance liquid chromatography, indicating two separate fractions with highly increased levels of E-64-sensitive protease activity. In the cells treated with E-64 during their exposure to free-fall, K-ras codon 12 base substitution mutation was detected after UV irradiation, although the mutation was not detected after UV irradiation alone. Thus, the increase in E-64-sensitive protease activity may be involved in the suppression of UV mutagenicity in UVAP-1 cells exposed to free-fall.

Isolation and characterization of a novel and potent inhibitor of Arg-gingipain from Streptomyces sp. strain FA-70

Arg-gingipain (Rgp) is a major cysteine proteinase produced by the oral bacterium Porphyromonas gingivalis, which is a major pathogen of advanced periodontal diseases. This enzyme is important for the bacterium both to exhibit its virulence and to survive in periodontal pockets. The development of Rgp inhibitors thus provides new therapeutic approaches to periodontal diseases. In this study, we first isolated and purified a novel and potent inhibitor of Rgp from the culture supernatant of Streptomyces species strain FA-70, now designated as FA-70C1. This compound was found to be an antipain analog composed of phenylalanyl-ureido-citrullinyl-valinyl-cycloarginal (C27H43N9O7). The Ki value was calculated to be 4.5x10(-9) M when benzyloxycarbonyl-phenylalanyl-arginine-4-methly-coumaryl-7-amide was used as a substrate. This compound also inhibited cathepsins B, L, and H, though their Ki values were much higher than that of Rgp. FA-70C1 had little or no inhibitory activity on Lys-gingipain, another cysteine proteinase of P. gingivalis. The Rgp-induced degradation of various human proteins was completely blocked by this inhibitor. Disruption of both the bactericidal activity of polymorphonuclear leukocytes and the viability of human fibroblasts and umbilical vein endothelial cells induced by the culture supernatant of P. gingivalis was suppressed by the inhibitor in a dose-dependent manner. The enhancement of vascular permeability induced by in vivo administration of the culture supernatant of P. gingivalis was strongly inhibited by the inhibitor. Furthermore, the growth of P. gingivalis was suppressed by FA-70C1 in a dose-dependent manner. These results strongly suggest that FA-70C1 is a useful tool to prevent the virulence of P. gingivalis.

Identification of prolylcarboxypeptidase as the cell matrix-associated prekallikrein activator

Investigations determined that the cell matrix-associated prekallikrein (PK) activator is prolylcarboxypeptidase. PK activation on human umbilical vein endothelial cell (HUVEC) matrix is inhibited by antipain (IC(50)=50 microM) but not anti-factor XIIa antibody, 3 mM benzamidine, 5 mM iodoacetic acid or iodoacetamide, or 3 mM N-ethylmaleimide. Corn trypsin inhibitor (IC(50)=100 nM) or Fmoc-aminoacylpyrrolidine-2-nitrile (IC(50)=100 microM) blocks matrix-associated PK activation. Angiotensin II (IC(50)=100 microM) or bradykinin (IC(50)=3 mM), but not angiotensin 1-7 or bradykinin 1-5, inhibits matrix-associated PK activation. ECV304 cell matrix PK activator also is blocked by 100 microM angiotensin II, 1 microM corn trypsin inhibitor, and 50 microM antipain, but not angiotensin 1-7. 1 mM angiotensin II or 300 microM Fmoc-aminoacylpyrrolidine-2-nitrile indirectly blocks plasminogen activation by inhibiting kallikrein formation for single chain urokinase activation. On immunoblot, prolylcarboxypeptidase antigen is associated with HUVEC matrix. These studies indicate that prolylcarboxypeptidase is the matrix PK activator.

Assembly and activation of HK-PK complex on endothelial cells results in bradykinin liberation and NO formation

Prekallikrein (PK) activation on human umbilical endothelial cells (HUVEC) presumably leads to bradykinin liberation. On HUVEC, PK activation requires the presence of cell-bound high-molecular-weight kininogen (HK) and Zn(2+). We examined the Zn(2+) requirement for HK binding to and the consequences of PK activation on endothelial cells. Optimal HK binding (14 pmol/10(6) HUVEC) is seen with no added Zn(2+) in HEPES-Tyrode buffer containing gelatin versus 16--32 microM added Zn(2+) in the same buffer containing bovine serum albumin. The affinity and number of HK binding sites on HUVEC are a dissociation constant of 9.6 +/- 1.8 nM and a maximal binding of 1.08 +/- 0.26 x 10(7) sites/cell (means +/- SD). PK is activated to kallikrein by an antipain-sensitive mechanism in the presence of HK and Zn(2+) on HUVEC, human microvascular endothelial cells, umbilical artery smooth muscle cells, and bovine pulmonary artery endothelial cells. Simultaneous with kallikrein formation, bradykinin (5.0 or 10.3 pmol/10(6) HUVEC in the absence or presence of lisinopril, respectively) is liberated from cell-bound HK. Liberated bradykinin stimulates the endothelial cell bradykinin B2 receptor to form nitric oxide. Assembly and activation of PK on endothelial cells modulates their physiological activities.

Kinetic and structural properties of two isoforms of trypsin isolated from the viscera of Japanese anchovy, Engraulis japonicus

Two isoforms of anchovy trypsin (aT-I and aT-II) were purified from the visceral extracts by (NH4)2SO4 fractionation followed by affinity chromatography, gel filtration, and ion-exchange chromatography. The homogeneity of the purified preparation was evidenced by both native- and SDS-PAGE, and further by gelatin zymography. Identities of aT-I and aT-II as trypsins were established by N-terminal amino acid sequencing, which matched exactly to the corresponding stretches of their respective amino acid sequences obtained by molecular cloning [Ahsan et al. (2000), Marine Biotechnol., in press]. Both isoforms were completely inhibited by serine protease inhibitors as well as by specific trypsin inhibitors. The purified anchovy trypsins showed considerably higher catalytic efficiencies (kcat/Km) than bovine trypsin as measured toward benzoyl-arginine p-nitroanilide (BAPA) and benzoyl-arginine ethyl ester (BAEE) at 25 degrees C; in particular, aT-II was 35 times more efficient than its mammalian counterpart against BAPA. This was due mainly to a dramatic decrease of Km values for anchovy trypsins, which are indicative of an evolutionary response toward increased substrate binding at suboptimal temperatures in the marine environment.

Der p 1 facilitates transepithelial allergen delivery by disruption of tight junctions

House dust mite (HDM) allergens are important factors in the increasing prevalence of asthma. The lung epithelium forms a barrier that allergens must cross before they can cause sensitization. However, the mechanisms involved are unknown. Here we show that the cysteine proteinase allergen Der p 1 from fecal pellets of the HDM Dermatophagoides pteronyssinus causes disruption of intercellular tight junctions (TJs), which are the principal components of the epithelial paracellular permeability barrier. In confluent airway epithelial cells, Der p 1 led to cleavage of the TJ adhesion protein occludin. Cleavage was attenuated by antipain, but not by inhibitors of serine, aspartic, or matrix metalloproteinases. Putative Der p 1 cleavage sites were found in peptides from an extracellular domain of occludin and in the TJ adhesion protein claudin-1. TJ breakdown nonspecifically increased epithelial permeability, allowing Der p 1 to cross the epithelial barrier. Thus, transepithelial movement of Der p 1 to dendritic antigen-presenting cells via the paracellular pathway may be promoted by the allergen's own proteolytic activity. These results suggest that opening of TJs by environmental proteinases may be the initial step in the development of asthma to a variety of allergens.

Exposure to lysosomotropic amines and protease inhibitors retard corneal endothelial cell migration along the natural basement membrane during wound repair

Regulation of cell migration along the natural basement membrane during wound repair in the organ culture corneal endothelium was investigated using various lysosomotropic amines and protease inhibitors. Following a circular transcorneal freeze injury, cells within the area die and expose the underlying basement membrane (Descemet's membrane). During normal wound repair, cells traverse this expanse and repopulate the region by approximately 48 h postinjury. During this time, acid phosphatase histochemistry revealed distinct alterations in the lysosomal population of cells that were adjacent to, and migrated into, the wound region. To explore whether relationships may exist between changes in the lysosome population and cell migration, injured endothelia were organ cultured in the presence of either methylamine or chloroquine, two lysosomotropic amines. Methylamine significantly retarded cell translocation (85%) into the injury zone when compared to nontreated controls. In comparison, chloroquine was less effective in restricting injury-induced cell migration and propylamine, also a lysosomotropic amine, had no influence on the repair process. In addition, two serine/thio protease inhibitors, leupeptin and antipain, were both able to impede cell translocation during wound repair by 85 and 52%, respectively, whereas soybean trypsin inhibitor, a serine protease inhibitor, exhibited no inhibitory effect on the repair process. Similarly, incubating injured tissues in either 1,10-phenanthroline or phosphoramidon, both metalloproteinase inhibitors, did not prevent endothelial cell movement nor wound repair. Results indicate that corneal endothelial cell migration along the natural basement membrane is dependent on protease function. Although the precise nature of the proteases involved has yet to be ascertained, results indicate that lysosomal enzymes may have a distinct role in corneal endothelial cell movement along the natural basement membrane during wound repair.

Effects of the protease inhibitor antipain on cell malignant transformation

BACKGROUND

Several natural products have been found to exhibit a chemopreventive activity both in in vivo and in vitro experimental systems. Among them, protease inhibitors seem to play a key role in the regulation of growth and phenotypic expression of transformed cells as well as in the regulation of the late events of carcinogenesis. We evaluated the effect of antipain (AP), a natural protease inhibitor, on chemically induced BALB/c 3T3 cell transformation, on invasion and chemotactic motility of transformed cells and on their gelatinase expression.

METHODS

BALB/c 3T3 cells were plated and exposed to 2.5 micrograms/ml 3-MCA or 50 micrograms/ml, 1,2-DBE. The effect of a non-cytotoxic dosage of AP (10 microM) was studied by: a) pretreating cells with AP for 48 hours before the carcinogen exposure; b) adding AP simultaneously to the carcinogen treatment; c) chronic addition of AP at each medium change throughout the experimental duration. The effectiveness of the treatment was analysed as the ability to reduce or inhibit the occurrence of transformed foci. Modulation of the invasive phenotype by anti-transforming dosages of AP was evaluated by in vitro Matrigel invasion assay. Gelatin zymography was performed in order to assess AP regulation of proteolytic enzymes, such as metalloproteases, involved in invasion and metastasis.

RESULTS

AP treatment can reduce the transformation rate both in 3-MCA- and 1,2-DBE-initiated cells. Its effectiveness depends on the administration schedule, and chronic addition seems to be the most effective treatment. The concentration of AP, which is effective in the antitransformation assay, is not able to significantly affect the migration and invasion of chemically transformed cells or their gelatinase activity.

CONCLUSIONS

AP can suppress chemically induced BALB/c 3T3 cell transformation through mechanisms which do not involve modulation of the invasive phenotype.

Stabilization of rat liver mitochondrial alanine aminotransferase with ethanol and trehalose

Rat liver mitochondrial alanine aminotransferase (mALT) is known to be a very unstable enzyme, a property that has hindered efforts to purify it. In this report we examine the possibility of stabilizing mALT with ethanol, trehalose, and protease inhibitors. The presence of ethanol was shown to slow down the inactivation of mALT, increasing its half-life from 1 to 4 h. Trehalose was found to greatly enhance the stability of mALT in a concentration-dependent manner. In the presence of 36.5% trehalose, the half-life of mALT was 85 h. Of the protease inhibitors tested only antipain and chymostatin slowed down the inactivation of mALT but only within the first 24 h following preparation of the crude enzyme. It is concluded that the inclusion of ethanol and trehalose in purification protocols could aid the purification of the enzyme. It is also concluded that the inclusion of protease inhibitors in purification protocols of mALT may not be necessary as its inactivation does not seem to be due to protease activity.

Cytosolic neutral proteinases of Paracoccidioides brasiliensis

Cytosolic proteinases were assayed in both morphological phases of Paracoccidioides brasiliensis. Preparations from the mycelial phase were more active in vitro than those from the yeast cells. Optimal proteinase activities for both phases occurred at pH's between 6.0 and 9.0, and at 45 degrees C. Gelatin-SDS-PAGE electrophoresis separated several bands (58-112 kDa) in mycelial preparations; a single band (70 kDa) was seen in yeast preparations. Enzymatic activities were inhibited by antipain, phenyl methyl sulfonyl fluoride (PMSF), and chymostatin, suggestive of serine proteinases. Partial inhibition of the mycelial enzymes by ethylene diamine tetraacetic acid (EDTA), 1,10-phenanthroline, and iodoacetamide, also suggested the presence of cysteine- and metallo-proteinases. The enzymatic activity increased in preparations extracted from yeast cells transforming to mycelia, and decreased in preparations obtained from the reverse process.

Protease activation following UV irradiation is linked to hypomutability in human cells selected for resistance to combination of UV and antipain

In order to examine the relationship between activation of an antipain-sensitive protease and suppression of mutability in UV (UVC)-irradiated human cells, a human cell variant with the high protease activity induced by UV was established and characterized for its susceptibility to UV-induced mutagenicity. Cells of a hypermutable cell strain, RSa, were mutagenized with ethyl methanesulfonate and irradiated with 10 J/m2 UV, followed by exposure to 20 mM antipain for 34 h. Whereas the combined treatment was totally lethal to RSa cells not treated with ethyl methanesulfonate, one surviving clone was isolated from the mutagenized cells and designated UVAP-1. When fibrinolytic protease activity was measured from extracts of the cell, it was found that the protease activity was elevated promptly after UV irradiation, reaching the maximum at 10 min post-irradiation. This protease activity was inhibited by antipain. After UV irradiation the phenotypic mutation frequencies of UVAP-1 cells were much lower than those of the parent RSa cells, as evaluated by the generation of clones resistant to ouabain-killing. Furthermore, mutation at the K-ras codon 12 in genomic DNA was detected in RSa cells but not in UVAP-1 cells. Thus, the protease activation was correlated with the decreased levels of UV-mutagenicity in UVAP-1 cells, supporting the possible involvement of the antipain-sensitive protease activity in the regulation of cellular mutability following UV irradiation.

Carboxy-terminal truncation of long-tailed amyloid beta-peptide is inhibited by serine protease inhibitor and peptide aldehyde

The 42/43-residue amyloid beta-peptide (Abeta) is widely believed to play a major role in Alzheimer's disease. The present study shows that the rat brain contains a carboxypeptidase that efficiently deletes three amino acids from Abeta1-43. The carboxypeptidase activity in the brain was completely inhibited by 1 mM phenylmethylsulfonyl fluoride, suggesting the protease is a serine carboxypeptidase. The carboxy-terminal truncation of Abeta1-43 was moderately inhibited by carbobenzoxy-Leu-leucinal, carbobenzoxy-Leu-Leu-leucinal, and carbobenzoxy-Leu-Leu-norvalinal, and weakly by antipain. The present data suggest that the serine carboxypeptidase contributes to the generation of short-tailed Abeta peptides and is important in the intracellular clearance of Abeta1-42/43 in brains.

Low barrier hydrogen bond is absent in the catalytic triads in the ground state but Is present in a transition-state complex in the prolyl oligopeptidase family of serine proteases

High frequency proton NMR spectra for two members of the prolyl oligopeptidase class of serine proteases, prolyl oligopeptidase and oligopeptidase B, showed that resonances corresponding to the active center histidine Ndelta1H and Nepsilon2H generally observed in this region, are absent in these enzymes. However, for both enzymes, as well as with the H652A and H652Q active center variants of oligopeptidase B, there are two resonances observed in this region that could be assigned to two protonated histidines with a noncatalytic function. The results indicate that these two histidines participate in strong hydrogen bonds. The absence of resonances pertinent to the active center histidine resonances suggests the absence of a low barrier hydrogen bond between the Asp and His in these two enzymes in their ground states. Addition of the peptide boronic acid t-butoxycarbonyl-(D)Val-Leu-(L)boroArg to oligopeptidase B resulted in potent, slow binding inhibition of the enzyme and the appearance of a new resonance at 15.8 ppm, whose chemical shift is appropriate for a tetrahedral boronate complex and a low barrier hydrogen bond. The results demonstrate important dissimilarities between the active centers of the prolyl oligopeptidase class of serine proteases and the pancreatic and subtilisin classes both in the ground state and in the transition-state analog complexes.

Clostridium septicum alpha-toxin is proteolytically activated by furin

Clostridium septicum alpha-toxin is secreted as an inactive 46,450-Da protoxin. The protoxin is activated by proteolytic cleavage near the C terminus, which eventually causes the release of a 45-amino-acid fragment. Proteoytic activation and loss of the propeptide allow alpha-toxin to oligomerize and form pores on the plasma membrane, which results in colloidal-osmotic lysis. Activation may be accomplished in vitro by cleavage with trypsin at Arg367 (J. Ballard, Y. Sokolov, W. L. Yuan, B. L. Kagan, and R. K. Tweten, Mol. Microbiol. 10:627-634, 1993), which is located within the sequence KKRRGKR367S. A conspicuous feature of this site is a recognition site (RGKR) for the eukaryotic protease furin. Pro-alpha-toxin (AT[pro]) that was digested with trypsin or recombinant soluble furin yielded the 41,327-Da active form (AT[act]). A mutated alpha-toxin in which the furin consensus site was altered to KKRSGSRS at the cleavage site (AT[SGSR]) was cleaved and activated by trypsin but not by furin. In cytotoxicity assays, wild-type Chinese hamster ovary (CHO) and furin-deficient CHO (FD11) cells were killed by AT(pro) but not by AT(SGSR). Both cell types were killed by AT(SGSR) that was preactivated with trypsin. Propidium iodide uptake assays revealed that FD11 cells were approximately 22% less sensitive to AT(pro) than were CHO cells. AT(pro)-induced cell lysis of FD11 cells, assessed by propidium iodide uptake, was partially prevented by leupeptin (5 mM) and completely prevented by antipain (2.5 mM). The inhibition by antipain suggested the presence of cysteine or serine proteases that could also activate AT(pro). These findings demonstrate that furin is involved in the activation of C. septicum alpha-toxin on the cell surface but that alternate eukaryotic proteases can also activate the toxin. Regardless of the activating protease, the furin consensus site appears to be essential for the activation of alpha-toxin on the cell surface.

Serine protease inhibitors block neutral sphingomyelinase activation, ceramide generation, and apoptosis triggered by daunorubicin

To address the role of a plausible protease cascade in daunorubicin-triggered apoptosis, we evaluated the effect of cell-permeant protease inhibitors on its signal transduction pathway. Treatment of U937 and HL-60 cells with 0.5-1 microM of the chemotherapeutic drug daunorubicin induced a greater than 30% activation of neutral sphingomyelinase activity within 4-10 min with concomitant sphingomyelin hydrolysis and ceramide generation. DNA fragmentation and the classical morphological features of apoptosis were observed within 4-6 h. Pretreatment of cells with the serine protease inhibitors N-tosyl-L-phenylalanyl chloromethyl ketone (20 microM) or dichloroisocoumarin (20 microM) for 30 min inhibited daunorubicin-induced neutral sphingomyelinase activation, sphingomyelin hydrolysis, ceramide generation, and apoptosis. Other cell-permeant protease inhibitors such as pepstatin, leupeptin, and antipain had no such effect. The apoptotic response could be restored by the addition of 25 microM cell-permeant C6-ceramide. Daunorubicin-induced NF-kappaB activation was inhibited by dichloroisocoumarin but not by N-tosyl-L-phenylalanyl chloromethyl ketone, suggesting that this transcription factor can be activated independently of ceramide and is not directly implicated in the apoptotic pathway. These results suggest that inhibitors of serine proteases can act upstream of ceramide in drug-triggered apoptosis and that neutral sphingomyelinase activation is either directly or indirectly serine protease dependent.

Processing of colicin V-1, a secretable marker protein of a bacterial ATP binding cassette export system, requires membrane integrity, energy, and cytosolic factors

Extracellular secretion of the peptide antibiotic colicin V (ColV) in Escherichia coli is mediated by a dedicated exporter system consisting of host TolC protein and the products of two specific genes, cvaA and cvaB, the latter being a member of the ATP binding cassette (ABC) superfamily. An amino-terminal export signal of ColV is specific for the CvaA-CvaB-TolC exporter and is processed concomitant with secretion. In this study, we attempt to characterize this processing with a secretable marker protein, ColV-1, using a newly developed in vitro assay. Processing is found to be dependent on both CvaA-CvaB transporters and the TolC protein and to require membrane integrity. An additional cytoplasmic soluble factor(s) is also necessary for the processing. Although the sequence of the cleavage site suggests it could be a substrate, ColV-1 cannot be processed in vitro by the purified leader peptidase I. Moreover, ColV-1 processing is inhibited by antipain and N-ethylmaleimide. Furthermore, the processing requires energy in the form of nucleotide hydrolysis. These results indicate that the processing of ColV-1 is specific and more complex than expected, requiring the CvaA-CvaB-TolC transporter intact in the membrane, energy, and cytosolic factors for rapid cleavage.

Involvement of antipain-sensitive protease activity in the interferon-beta-induced UV-refractoriness of Cockayne syndrome fibroblasts

Fibroblast cells obtained from two siblings and a female patient with Cockayne syndrome (CS), when pretreated with human interferon (HuIFN)-beta prior to irradiation with UV light (254 nm wavelength), exhibited transiently induced fibrinolytic protease activity immediately after the irradiation in association with increased refractoriness to UV cell-killing. A protease inhibitor, antipain, inhibited the induction of protease activity in lysates of the CS fibroblasts from these 3 cases after the combination of HuIFN-beta pretreatment and UV irradiation, whereas elastatinal and 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB) inhibited the activity less than antipain did. Antipain also suppressed the increase in UV-refractoriness of HuIFN-beta-pretreated CS fibroblasts, as revealed by culturing cells for 24 h in medium containing the inhibitor immediately after UV exposure and thereafter evaluating the ability of colony formation by the cells. Thus, an antipain-sensitive protease may be involved in the UV-refractoriness induced by HuIFN-beta in CS fibroblast strains.

Hypomutable potential accompanying interferon-alpha resistance in a human cell line, IFr, derived from interferon-alpha-sensitive and hypermutable RSa cells

A human cell line, IFr, established from RSa cells, is a variant with increased resistance to cell proliferation inhibition (CPI) by human interferon (HuIFN)-alpha. The parent RSa cells are also hypermutable after irradiation with far-ultraviolet light (UV), as assessed by two different methods: cloning efficiency of ouabain-resistant (OuaR) mutants and K-ras codon 12 mutation in genomic DNA identified by polymerase chain reaction (PCR) following differential dot-blot hybridization. In the present study, IFr cells were found to be hypomutable: Less than 1 OuaR mutant per 10(4) surviving cells after UV (0-12 J/m2), in contrast to 1-53 OuaR mutants per 10(4) survivors in RSa cells, and no-detectable K-ras codon 12 mutation at any doses tested. However, IFr cells, when cultured with medium containing the protease inhibitor antipain after UV irradiation showed hypermutability to almost the same extent as RSa cells, as determined by both phenotypic and genetic mutation analyses. These results, together with the previous finding of antipain-sensitive protease induction in UV-irradiated or HuIFN-alpha-treated IFr cells, suggest that antipain-sensitive proteases or cellular functions or both may be involved in not only HuIFN-alpha resistance but also hypomutability of IFr cells.

Efficacy of serine protease inhibitors against Cryptosporidium parvum infection in a bovine fallopian tube epithelial cell culture system

The anticryptosporidial potential of the protease inhibitors alpha-1-antitrypsin (AAT), antipain, aprotinin, leupeptin, methoxysuccinyl-ala-ala-pro-valine chloromethylketone (MAAPVCK), soybean trypsin inhibitor (SBTI), and phenylmethylsulfonyl fluoride (PMSF) was evaluated in a bovine fallopian tube epithelial (BFTE) cell culture system. Protease inhibitor concentrations of 5, 10, 50, 100, and 500 micrograms/ ml (PMSF at 1, 2, and 3 mM) in RPMI medium were mixed with Cryptosporidium parvum oocysts and used to inoculate BFTE cell monolayers. At 24 hr postinoculation (candlejar/37 C), cells were rinsed with RPMI medium, fixed in methanol, and stained with Giemsa. Parasites were enumerated in cell monolayers by brightfield microscopy. The mean number of parasites counted in each protease inhibitor treatment group was expressed as a percentage of the mean number of parasites counted in an infection control group. Leupeptin and SBTI reduced parasite numbers to 40-50% of the control mean at 500 micrograms/ml: AAT, antipain, and aprotinin reduced parasite numbers to 10-15% at the same concentration. PMSF reduced parasite numbers to 40% of the control mean at 3 mM. MAAPVCK did not significantly inhibit cryptosporidial infection. These findings suggest that a protease component of C. parvum may be essential for host cell infection.

Proteinases in renal cell death

The role of proteinases in renal proximal tubule (RPT) cellular death was examined using specific inhibitors of proteinases. Rabbit RPT suspensions were incubated with antimycin A for 1 h or tetrafluoroethyl-L-cysteine (TFEC) for 4 h in the absence or presence of the specific cysteine proteinase inhibitor L-trans-epoxysuccinyl-leucylamido (4-guanidino)butane (E-64), the serine proteinase inhibitors N-p-tosyl-L-lysine chloromethyl ketone (TLCK) or 3,4-dichloroisocoumarin (DCS), the serine and cysteine proteinase inhibitors leupeptin or antipain, or the aspartic proteinase inhibitor pepstatin. E-64 and pepstatin decreased lactate dehydrogenase (LDH) release, a marker of cell death, from RPT exposed either to antimycin A or TFEC. TLCK, DCS, leupeptin, or antipain did not decrease antimycin A- or TFEC-induced cell death. Bromohydroquinone- or t-butylhydroperoxide-induced cell death was not decreased by any of the proteinase inhibitors. Loss of lysosomal membrane potential, indicated by neutral red release, occurred prior to the onset of antimycin A-induced cell death. Extensive inhibition of lysosomal cathepsins B and L by E-64 was correlated with cytoprotection. However, E-64 was only protective after some cell death had occurred. These results suggest that lysosomal cysteine and aspartic proteinases, but not serine proteinases, play a role in RPT cell death induced by antimycin A or TFEC. The observation that E-64 was only protective after some cell death had occurred suggests that lysosomal cathepsins are released from dying cells and subsequently attack the remaining viable cells.

Inhibitors of Ca(2+)-dependent endopeptidases modulate morphine-induced effects in rats

The effects of inhibitors of Ca(2+)-dependent endopeptidases (antipain and leupeptin) on morphine analgesia, reinforcing properties of morphine and on the development of opiate physical dependence were studied. Male Wistar rats were used. The analgesic action of morphine in the tail-immersion test was increased significantly by combined injection of morphine with antipain or leupeptin. Antipain or leupeptin alone had no analgesic action. The combination of morphine with antipain or leupeptin led to the reduction of morphine-induced place preference and the development of physical dependence. A single injection of antipain diminished the opiate-withdrawal signs in morphine-dependent rats. These results suggest a possible inhibitory effect of antipain or leupeptin on the Ca(2+)-dependent endopeptidases of neurons that mediate analgesia, reinforcing properties of morphine, development of opiate dependence and withdrawal.

Suppression of UV- and interferon-alpha-refractoriness by antipain in human IFr cells established from RSa cells sensitive to both stimuli

The human cell line IFr is a variant with an increased resistance to cell proliferation inhibition (CPI) by human interferon (HuIFN)-alpha, established from RSa cells with unusually high-sensitivity to CPI. IFr cells were later found to have increased resistance to the cell-killing effects of far-ultraviolet (UV) irradiation. Here, in cell lysates extracted from UV-irradiated IFr cells but not in those from irradiated RSa cells, fibrinolytic protease activity was found to be elevated promptly and transiently after irradiation. Treatment of IFr cells with HuIFN-alpha alone also resulted in the elevation of protease activity, but not that of RSa cells. Both the activity elevated after UV irradiation and after HuIFN-alpha treatment was inhibited to the greatest extent by antipain in vitro. Moreover, the refractoriness of IFr cells to UV cell-killing and to HuIFN-alpha CPI was suppressed by culturing with medium containing antipain immediately after UV irradiation or during HuIFN-alpha exposure. In similarly treated RSa cells, there was no modulation of UV- or HuIFN-alpha-susceptibility. These comparative characteristics between the two cell lines suggested that antipain-sensitive proteases and/or cellular functions may be involved in increased resistance to UV and HuIFN-alpha of IFr cells.

tBHP induced in vitro swelling of rat liver mitochondria

Tert-butyl hydroperoxide induced swelling of freshly isolated rat liver mitochondria was inhibited by butylated hydroxytoluene, butylated hydroxyanisole and alpha-tocopherol by acting at the initial phase. EDTA was more effective than EGTA in reducing the initial swelling and so were desferal and bipyrridyl. Spermine, an allosteric activator of calcium uptake, enhanced swelling whereas lanthanum and ruthenium red, the Ca2+ uniport blockers, reduced it. Inhibition of phospholipase A2 by dibucaine and Ca2+ activated proteases by antipain and leupeptin also reduced t-BHP induced swelling. The data indicate that peroxidative mitochondrial swelling involves an iron mediated initial rapid phase and a subsequent calcium dependent propagation phase.

Polarized GP2 secretion in MDCK cells via GPI targeting and apical membrane-restricted proteolysis

The major zymogen granule membrane protein in the exocrine pancreas is glycoprotein 2 (GP2), a glycosyl phosphatidylinositol (GPI)-linked membrane protein. Despite its GPI anchor, GP2 is secreted into the pancreatic duct. We examined the mechanism underlying the secretion of GP2 in isolated pancreatic acini and transfected Madin-Darby canine kidney (MDCK) cells (MDCK-GP2). MDCK-GP2 cells release GP2 almost exclusively (> 95%) from the apical membrane. Using GP2 as a model, we defined a novel mechanism of polarized protein secretion in which a secretory protein is targeted via a GPI anchor to the apical plasma membrane, whereupon the mature form is released by proteolysis. Furthermore, we described two features of MDCK cells that enhance the polarized release of GP2: an apical plasma membrane-restricted distribution of the protease responsible for GP2 membrane cleavage, and a transcytotic pathway to reroute basolateral plasma membrane GP2 to the apical cell surface.

Evidence for the presence of an inactive precursor of human hepatocyte growth factor in plasma and sera of patients with liver diseases

Human hepatocyte growth factor (hHGF), which is now known to be the same protein as the scatter factor and the tumor cytotoxic factor, is a heterodimeric protein with one heavy chain and one light chain linked together by a disulfide bond, and is thought to be involved in liver regeneration. Using an enzyme-linked immunosorbent assay (ELISA) and Western blot analysis, we found that a significant amount of single chain precursor of hHGF (pro-hHGF) was present in plasma of patients with fulminant hepatic failure (FHF) and that normal human serum contained a protease or proteases that convert pro-HGF to a heterodimeric (mature) form of hHGF. We also showed that the processing protease activity for hHGF was suppressed by such serine protease inhibitors as leupeptin, antipain, and aprotinin, and that sera of patients with liver diseases such as fulminant hepatic failure, acute hepatitis, chronic hepatitis, and cirrhosis contained not only pro-hHGF but also the protease. This is the first report showing the presence of pro-hHGF in human blood, and our observations suggest that hHGF is synthesized and secreted from the hHGF-producing cells as an inactive pro-hHGF after hepatic injuries, and the pro-hHGF is then converted to an active heterodimeric form of hHGF in the blood. It is also suggested that plasma of patients with liver diseases contains an active protease or proteases that convert pro-hHGF to a mature form of hHGF.

Suppression of saccharin-induced mutagenicity by interferon-alpha in human RSa cells

Saccharin is an artificial sweetener commonly used in the formulation of foods and beverages. Sodium saccharin-induced mutagenicity is detectable in human RSa cells by estimation of cloning efficiency of ouabain-resistant mutant cells and determination of K-ras codon 12 mutation in genomic DNA, analyzed by PCR and differential dot-blot hybridization. However, in this study no phenotypic or genetic mutations were detected in RSa cells cultured with human IFN (HuIFN)-alpha before sodium saccharin treatment. The suppressive effect was lessened by transient treatment with antipain immediately after sodium saccharin treatment. Elevation of antipain-sensitive protease activity was found, furthermore, in RSa cells cultured with HuIFN-alpha and subsequently treated with sodium saccharin. Thus, antipain-sensitive protease induction in cells tested here may be involved in suppression of the mutagenicity of saccharin by HuIFN-alpha.

Thiol-protease inhibitors selectively inhibit presentation of antigen incorporated through B cell antigen receptors

B cells efficiently uptake exogenous antigens through cell surface IgM molecules and present them to specific T cells. Although it is implicated that antigens taken up by surface IgM associate with newly synthesized class II molecules, the precise pathway of the presentation is still unclear. Here we report that thiol-protease inhibitors inhibit the presentation of trinitrophenol-conjugated ovalbumin by a leukemic B cell line, A20.HL, which constitutively expresses trinitrophenol-specific surface IgM although they had only a minimum effect on the presentation of unconjugated ovalbumin. In addition, thiol-protease inhibitors slightly reduced the surface expression of class II molecules. Our results suggest that exogenous antigen taken up through surface IgM is presented by a pathway which involves proteolysis by thiol-proteases and distinct from that for the antigens taken up through non-specific endocytosis.

Involvement of antipain-sensitive protease activity in suppression of UV-mutagenicity by human interferon-alpha

To study the relationship between the transient elevation of protease activity and hypomutability observed in hypermutable human RSa cells pretreated with human interferon (HuIFN)-alpha and then irradiated with far-ultraviolet light (UV), protease inhibitors capable of specifically inhibiting the activity were investigated. Of ten inhibitors tested, antipain showed the greatest inhibitory effect. Antipain also prevented the suppression of UV-mutagenicity by HuIFN-alpha in RSa and xeroderma pigmentosum-derived fibroblast cells, as shown by culturing cells in medium containing antipain immediately after UV exposure and evaluating the generation of clones resistant to ouabain- or 6-thioguanine-mediated cytotoxicity. Thus, an antipain-sensitive protease may be involved in the hypomutability induced by HuIFN-alpha.

The role of proteases in stratum corneum: involvement in stratum corneum desquamation

The effects of protease inhibitors on cell dissociation were studied in vitro in order to examine the involvement of proteases in stratum corneum desquamation. Stratum corneum sheet (peeled from human backs after sunburn) was incubated in a detergent mixture containing 8 mM N,N-dimethyldodecylamine oxide, 2 mM sodium lauryl sulphate and 60 micrograms/ml kanamycin with or without protease inhibitors, and the number of released cells was counted after incubation for 48 h. Cell dissociation was inhibited strongly by antipain or aprotinin, but not at all by N-[N-(L-3-transcarboxyoxiran-2-carbonyl)-L-leucyl]-agmatin, N-ethylmaleimide or pepstatin, which suggests that only serine proteases are associated with desquamation. Furthermore, leupeptin and chymostatin each reduced cell dissociation about half as effectively as aprotinin or antipain, while a mixture of leupeptin and chymostatin prevented stratum corneum dissociation as potently as antipain or aprotinin. In addition, the activity of chymotrypsin-like protease in scaly skin was higher than that in normal skin, as we have previously found for trypsin-like protease. These results suggest that both trypsin-like and chymotrypsin-like serine proteases are involved in stratum corneum desquamation.

Bromobenzene detoxification in the human liver-derived HepG2 cell line

1. The applicability of the human hepatoma cell line, HepG2, as a cell culture model for studying xenobiotic liver toxicity has been investigated using the well-characterized hepatotoxic chemical, bromobenzene. 2. Bromobenzene caused a concentration- (0-10 mM) and time-dependent (0-180 min) decrease in HepG2 cell viability. The degree of toxicity was dependent upon the culture medium composition and the state of cell growth. Toxicity in Modified Earle's and Williams' E Media was maximal at 7 days growth compared with 3 and 10 days, and was greater in Williams' than in Earle's medium. Toxicity in Dulbecco's medium was apparent only at 10 days growth and was less than the maximum toxicity in the other media. 3. Bromobenzene was detoxified by epoxide hydrase. The question of metabolic activation by P450 remained unresolved, but any involvement of P450 was by forms not inhibited by ketoconazole. 4. The mechanism of bromobenzene toxicity did not appear to involve lipid peroxidation, depletion of reduced glutathione, calcium-mediated proteolysis or metabolic activation by prostaglandin synthetase, but may have involved direct solvent-induced cell damage. 5. This study demonstrates the potential usefulness of HepG2 cells in toxicity testing and highlights the importance of standardizing culture conditions.

Cytosolic Ca2+ elevation and calpain inhibitors in HgCl2 injury to rat kidney proximal tubule epithelial cells

This study assessed HgCl2 injury to proximal tubule epithelial cells as it relates to the concentration of ionized cytosolic Ca2+ ([Ca2+]i) elevation and activation of calpains. Experiments in high and low extracellular Ca2+ concentration ([Ca2+]e) were performed using the calpain inhibitors antipain and leupeptin, and also trypsin inhibitor, methylamine, chloroquine, and ryanodine. Cell killing was time/dose dependent and greater with high [Ca2+]e. After 30 min treatment with 25 microM HgCl2, 19% of cells in low [Ca2+]e were dead while 72% died in high [Ca2+]e. Morphologic changes such as cytoplasmic blebbing were also greater in high [Ca2+]e. Antipain and leupeptin diminished toxicity. Leupeptin did not block Ca2+ entry into cells. Results show that HgCl2 toxicity is correlated with increased [Ca2+]i, and that calpains may mediate the resultant pathological changes.

[The roles of monocytes and the interaction between monocyte and T cell in human immune suppression induced by trichosanthin]

This paper deals with the roles of monocytes and the interaction between T cell and monocyte in Trichosanthin-induced human immune suppression. The data strongly argue that (a) monocytes could mediate the immune suppression of Trichosanthin, but T cells alone could not; (b) T cells acquire the ability to mediate the suppression effect if they were pulsed with Trichosanthin together with monocytes; (c) Antipain, a blocking agent against antigen processing and presentation, could diminish the suppressive activity of the Trichosanthin-pulsed monocytes. The results suggested the dependence of Trichosanthin on monocyte in immune down-regulation. One of the mechanisms might be that Trichosanthin induces an inhibitory network through antigen processing and presentation by monocytes.

Leupeptin-binding site(s) in the mammalian multicatalytic proteinase complex

The multicatalytic proteinase (MCP) complex is a major nonlysosomal proteinase which plays an important role in non-lysosomal pathways of protein degradation and which has recently been implicated in antigen processing. The mammalian MCP complex is composed of more than 20 different types of polypeptide, but it is not yet clear which of these components are responsible for its proteolytic activities. The complex has at least three distinct types of proteolytic activity. One of these, the so-called 'trypsin-like' activity, which involves cleavage on the carboxy side of basic amino acid residues, can be selectively and completely inhibited by peptidyl arginine aldehydes (such as leupeptin and antipain), and is also the most sensitive to inhibition by thiol-reactive reagents. In the present study N-[ethyl-1-14C]ethylmaleimide has been used to specifically label thiol groups protected by leupeptin binding. The results suggest that one or two polypeptide components within the complex can be protected against modification by N-ethylmaleimide. These components may be responsible for the 'trypsin-like' activity of the complex or may be adjacent to the catalytic component(s) and play an important role in substrate binding.

Giant sarcoplasmic reticulum vesicles: a study of membrane morphogenesis

Rabbit sarcoplasmic reticulum vesicles were fused into giant proteoliposomes in a medium of 0.1 M KCl, 10 mM Tris-maleate, pH 7.0, 10 micrograms ml-1 antipain, 10 micrograms ml-1 leupeptin, 25 IU per ml Trasylol, 3 mM NaN3, 3.75% PEG 1500 and 3% DMSO by brief exposure to 37 degrees C, followed by incubation for 4 h at 25 degrees C. Approximately 5-10% of the sarcoplasmic reticulum elements underwent fusion, forming single-walled spherical vesicles of 1-25 microns diameter, in which the polarity of the native membrane was preserved. The Ca(2+)-stimulated ATPase activity remained essentially unchanged after fusion. On exposure to decavanadate in a Ca(2+)-free medium the spherical vesicles assumed a corrugated appearance with the formation of long ridges separated by deep furrows that eventually pinched off longitudinally and separated into numerous long crystalline tubules of uniform (approximately 0.1 microns) diameter. The vanadate-induced transformation of giant vesicles into tubules implies that the geometry of the sarcoplasmic reticulum membrane is determined by the conformation of the Ca(2+)-ATPase.

Protease inhibitors suppress the formation of tight junctions in gastrointestinal cell lines

Tight junctions (TJ) of the fascia occludens type can be induced in the human colon adenocarcinoma cell lines HT29 and Caco-2 by treatment with 320 mM cesium sulfate. This process can be completely inhibited by the protease inhibitors leupeptin and antipain. The concentration for 50% inhibition was 32 microM leupeptin and 270 microM antipain, respectively. In the polarized colon carcinoma cell line Caco-2, the spontaneous formation of histotypical TJ and the development of transepithelial electrical resistance do not occur when the cells are cultured in medium containing 400 microM leupeptin. Following the removal of leupeptin, zonula occludens type TJ and electrical resistance develop synchronously during a period of 4 h. Dihydroleupeptin, the alcohol analog of leupeptin, inhibits neither the spontaneous nor the induced assembly of TJ fibrils. Thus, the aldehyde group of leupeptin is essential for activity. These data suggest that the salt-induced as well as the spontaneous formation of TJ involve cellular proteases which are susceptible to protease inhibitors.

Effects of activators and inhibitors of protein kinase C on X-ray induced malignant transformation in vitro

We have examined the effects on X-ray induced malignant transformation in vitro of a number of activators and inhibitors of protein kinase C (PKC). Several of these substances were found to enhance or inhibit transformation, and the extent of the effects on transformation were found to be consistent with the potencies of the substances in activating or inhibiting PKC. Additionally, the observed transformation enhancement was found to be reversed by the presence of the anticarcinogenic protease inhibitors antipain or the Bowman-Birk inhibitor. These results suggest that activation of protein kinase C may be involved in the mechanism of in vitro X-ray induced malignant transformation.

Antipain-induced suppression of oncogene expression in H-ras-transformed NIH3T3 cells

Antipain (AP; 50 micrograms/ml) inhibits transformation of NIH3T3 cells after transfection with an activated H-ras oncogene. To determine whether AP effects on transformation are associated with alterations in oncogene expression, NIH3T3 cells were cotransfected with an activated H-ras oncogene and the selectable marker gene aph, and gene expression was quantified. Fifty percent of geneticin-resistant colonies which were exposed to AP failed to express the transformed phenotype as determined by their inability to grow in soft agar. Northern blot analysis of the transformed and nontransformed colonies revealed that suppression of H-ras transformation by AP was associated with a decrease in expression of the exogenously transfected H-ras gene by approximately 4-fold. Expression of the endogenous oncogene c-myc was decreased by approximately 2.5-fold, to levels seen in untransfected cells. AP-treated colonies that retained the transformed phenotype had levels of oncogene expression that were similar to untreated ras-transformed colonies. Southern blot analysis revealed no effects of AP on incorporation or copy number of the H-ras gene.

Light-induced D1 protein degradation is catalyzed by a serine-type protease

Light-induced degradation of the D1 protein in isolated spinach photosystem II core preparations was studied after addition of various protease inhibitors. The degradation was selectively inhibited by several serine protease inhibitors in particular diisopropylfluorophosphate. The results demonstrate that the D1 protein is degraded by a serine-type of proteolytic activity that is an integral part of photosystem II.