The ubiquitin-proteasome system is necessary for the replication of duck Tembusu virus.

Duck Tembusu virus (DTMUV) is a newly emerging pathogenic flavivirus that has caused massive economic losses to the duck industry in China. The cellular factors required for DTMUV replication have been poorly studied. The ubiquitin-proteasome system (UPS), the major intracellular proteolytic pathway, mediates diverse cellular processes, including endocytosis and signal transduction, which may be involved in the entry of virus. In the present study, we explored the interplay between DTMUV replication and the UPS in BHK-21 cells and found that treatment with proteasome inhibitor (MG132 and lactacystin) significantly decreased the DTMUV progency at the early infection stage. We further revealed that inhibition of the UPS mainly occurs on the level of viral protein expression and RNA transcription. In addition, using specific siRNAs targeting ubiquitin reduces the production of viral progeny. In the presence of MG132 the staining for the envelope protein of DTMUV was dramatically reduced in comparison with the untreated control cells. Overall, our observations reveal an important role of the UPS in multiple steps of the DTMUV infection cycle and identify the UPS as a potential drug target to modulate the impact of DTMUV infection.

Molecular detection of Hsp90 inhibitor suppressing PCV2 replication in host cells.

Porcine Circovirus Type 2 (PCV2) is a pathogen that has the ability to cause devastating disease manifestations in pig populations with major economic implications. Our previous research found that Hsp90 is required for PCV2 production in PK-15 and 3D4/31 cells. The aim of this study was to evaluate the effect of Hsp90 inhibitor regulating PCV2 replication and to explore its underlying mechanism. In PK-15 and 3D4/31 cells treated with 17-AAG after viral adsorption, replication of PCV2 was attenuated as assessed by quantitating the expression of viral protein. Following NF-κB activation it was observed that 24hpi with PCV2 was significantly inhibited in the presence of 17-AAG. The expression of Hsp90 associated client proteins in PCV2-infected cells were also reduced in the presence of 17-AAG. However, treatment with MG-132 failed to rescue 17-AAG mediated reduction of PCV2 production in host cells. Thus, Hsp90 regulates PCV2 by modulating cellular signaling proteins. These results highlight the importance of cellular proteins during PCV2 infection and the possibility of targeting cellular chaperones for developing new anti-rotaviral strategies.

Efeito in vitro de inibidores de proteases sobre trofozoítos de Giardia duodenalis / In vitro effect of protease inhibotors on trophozoites of giardia duodenalis

Entre os alvos mais promissores para o desenvolvimento de novos agentes antiparasitários, destacam-se as proteases que nos protozoários participam de processos metabólicos e fisiológicos, atuando como importantes fatores de virulência. Como a atividade dessas moléculas pode ser controlada por inibidores específicos, essas substâncias têm sido avaliadas quanto ao potencial terapêutico em diferentes infecções parasitárias, inclusive por Giardia. O presente estudo foi desenvolvido com o objetivo de avaliar o efeito in vitro dos inibidores de cisteína (IAA e E-64) e serina-proteases (antipaina, leupeptina e TLCK) sobre o crescimento, aderência, viabilidade e ultraestrutura de trofozoítos de cepa de Giardia isolada e axenizada em Botucatu. Para isso, trofozoítos foram incubados em meio contendo os inibidores a diferentes concentrações durante 24, 48 e 72 horas. Nos ensaios de crescimento e aderência, o número de trofozoítos foi estimado a partir de contagens em hemocitômetro, enquanto que a viabilidade celular e as alterações ultraestruturais foram avaliadas, respectivamente, pelo método de redução do MTT e por microscopia eletrônica de transmissão. De acordo com as observações feitas no presente estudo, todos os inibidores de proteases apresentaram efeito sobre o crescimento, aderência e viabilidade dos trofozoítos. Entretanto, melhor desempenho quanto à capacidade de reduzir os parâmetros avaliados foi demonstrado nos ensaios com os inibidores de cisteína-proteases, especialmente a IAA. As maiores porcentagens de inibição do crescimento e aderência e as menores taxas de viabilidade foram observadas após o tratamento com IAA...

The quest for new antiparasitic alternatives has led researchers to base their studies on insights into biology, host-parasite interactions and pathogenesis. In light of this, the proteolytic enzymes or proteases have excited the researcher’s interest, once they have been identified as important virulence factors as well as potential chemotherapeutic targets in parasites. Considering that proteases are naturally regulated by specific inhibitors, these substances have been evaluated for their therapeutic potential in parasitic infections including Giardia. In this way, we proposed to evaluate the in vitro effect of inhibitors of cysteine (IAA and E-64) and serine proteases (antipain, leupeptin and TLCK) on growth, adherence, viability and ultrastructure of Giardia trophozoites of a strain isolated and axenized in Botucatu. For this, trophozoites were incubated in medium containing the inhibitors at various concentrations for 24, 48 and 72 hours. In growth and adherence assays, the number of trophozoites was estimated microscopically in a haemocytometer, whereas cell viability and ultrastructural changes were evaluated, respectively, by the method of MTT and transmission electron microscopy. In this study, all protease inhibitors showed effect on growth, adherence and viability of trophozoites. However, better performance in their ability to reduce the parameters assessed was demonstrated in experiments with cysteine proteases inhibitors, especially IAA...

Molecular mechanisms involved in interleukin-4-induced human neutrophils: expression and regulation of suppressor of cytokine signaling.

Interleukin-4 (IL-4) is a CD132-dependent cytokine known to activate the Jak-STAT pathway in different cells and cell lines. Although IL-4 has been demonstrated previously to be an agonist in human neutrophils, its capacity to activate different cell signaling pathways in these cells has never been investigated. Two types of IL-4 receptor (IL-4R) exist: the Type I (CD132/IL-4Ralpha heterodimer) and the Type II (IL-4Ralpha/IL-13Ralpha1 heterodimer). In a previous study, we demonstrated that neutrophils express the Type I receptor. Herein, using flow cytometry, we demonstrated that neutrophils, unlike U-937 cells, do not express IL-13Ralpha1 and IL-13Ralpha2 and confirmed the expression of CD132 and IL-4Ralpha on their surface. We also demonstrated that IL-4 induced phosphorylation of Syk, p38, Erk-1/2, JNK, Jak-1, Jak-2, STAT6, and STAT1 and that treatment of cells with the inhibitors piceatannol, SB203580, PD98059, or AG490 reversed the ability of IL-4 to delay neutrophil apoptosis. Using RT-PCR, we demonstrated for the first time that neutrophils express mRNA for all suppressor of cytokine signaling (SOCS) members, namely SOCS1-7 and cytokine-inducible Src homology 2 protein. It is interesting that IL-4 increased expression of SOCS3 at the mRNA and protein levels. The effect of IL-4 on SOCS3 protein expression was increased markedly when the proteasome inhibitor MG132 was added to the cultures, but this was inhibited by cycloheximide, suggesting that SOCS3 is de novo-synthesized in response to IL-4. We conclude that neutrophils express only the Type I IL-4R on their surface and that IL-4 signals via different cell signaling pathways, including the Jak/STAT/SOCS pathway.

Quercetin mediates preferential degradation of oncogenic Ras and causes autophagy in Ha-RAS-transformed human colon cells.

Several food polyphenols act as chemopreventers by reducing the incidence of many types of cancer, especially in colon epithelia. In this study, we have investigated whether the flavonoid quercetin can modulate cell proliferation and survival by targeting key molecules and/or biological processes responsible for tumor cell properties. The effect of quercetin on the expression of Ras oncoproteins was specifically studied using systems of either constitutive or conditional expression of oncogenic RAS in human epithelial cells. Our findings suggest that quercetin inhibits cell viability as well as cancer cell properties like anchorage-independent growth. These findings were further supported at the molecular level, since quercetin treatment resulted in a preferential reduction of Ras protein levels in cell lines expressing oncogenic Ras proteins. Notably, in cells that only express wild-type Ras or in those where the oncogenic Ras allele was knocked out, quercetin had no evident effects upon Ras levels. We have shown that quercetin drastically reduces half-life of oncogenic Ras but has no effect when the cells are treated with a proteasome inhibitor. Moreover, in Ha-RAS-transformed cells, quercetin induces autophagic processes. Since quercetin downregulates the levels of oncogenic Ras in cancer cells, we propose that this flavonoid could act as a chemopreventive agent for cancers with frequent mutations of RAS genes.

Testing the "garbage" accumulation theory of ageing: mitotic activity protects cells from death induced by inhibition of autophagy.

Imperfect autophagic degradation of oxidatively damaged macromolecules and organelles (so-called biological "garbage") is considered an important contributor to ageing and consequent death of postmitotic (non-dividing) cells, such as neurons and cardiac myocytes. In contrast, proliferating cells apparently escape senescence by a continuous dilution and repair of damaged structures during division. Postmitotic ageing can be mimicked and studied in cultures of potentially dividing cells if their mitotic activity is inhibited. To test the "garbage accumulation" theory of ageing, we compared survival of density-dependent growth-arrested (confluent) and proliferating human fibroblasts and astrocytes following inhibition of autophagic sequestration with 3-methyladenine (3MA). Exposure of confluent fibroblast cultures to 3MA for two weeks resulted in a significantly increased proportion of dying cells compared to both untreated confluent cultures and dividing cells with 3MA-inhibited autophagy. Similar results were obtained when autophagic degradation was suppressed by the protease inhibitor leupeptin. In 3MA- or leupeptin-exposed cultures, dying cells were overloaded with undegraded autofluorescent material. The results support a key role of biological lysosomal "garbage" accumulation in the triggering of ageing and death of postmitotic cells, as well as the anti-ageing role of cell division.

Inhibition of MG132-induced mitochondrial dysfunction and cell death in PC12 cells by 3-morpholinosydnonimine.

The effect of 3-morpholinosydnonimine (SIN-1) against the cytotoxicity of MG132, a proteasome inhibitor, in differentiated PC12 cells was assessed by measuring the effect on the mitochondrial membrane permeability. Treatment of PC12 cells with MG132 resulted in the nuclear damage, decrease in the mitochondrial transmembrane potential, cytosolic accumulation of cytochrome c, activation of caspase-3, increase in the formation of reactive oxygen species (ROS), and depletion of GSH. Addition of SIN-1, a producer of nitric oxide (NO) and superoxide, differentially reduced the MG132-induced cell death and GSH depletion concentration dependently with a maximal inhibitory effect at 150 microM. Carboxy-PTIO, superoxide dismutase, Mn-TBAP, and ascorbate prevented the inhibitory effect of SIN-1 on the cytotoxicity of MG132. SIN-1 inhibited the MG132-induced change in the mitochondrial membrane permeability, ROS formation and decrease in GSH contents in PC12 cells. S-nitroso-N-acetyl-DL-penicillamine reduced the MG132-induced cell death in PC12 cells, whereas peroxynitrite and H2O2 did not affect the cytotoxicity of MG132. The results suggest that NO and superoxide liberated from SIN-1 exert an inhibitory effect against the cytotoxicity of MG132. SIN-1 may inhibit the MG132-induced viability loss in PC12 cells by suppressing change in the mitochondrial membrane permeability that is associated with oxidative damage.

A possible intermediate step during apoptotic execution.

Many proteases are known to be involved in apoptosis. Among them, interleukin-1beta converting enzyme (ICE) and its family proteases, which are called caspases, play critical roles in the execution stage of apoptosis. We previously reported that a proteasome-inhibitor, benzyloxycarbonyl Leu-Leu-leucinal (ZLLLal), induced apoptosis in MOLT-4 cells. In the present study, in order to analyze the detailed mechanism of ZLLLal-induced apoptosis, we examined the effect of a caspase-inhibitor, acetyl(Ac)-Tyr-Val-Ala-Asp-chloromethyl ketone (AcYVADcmk), on ZLLLal-induced apoptosis in the cells. Agarose gel electrophoresis revealed that low concentrations of AcYVADcmk efficiently suppressed apoptotic DNA fragmentation. However, the cells presented morphology different from normal, apoptotic or necrotic cells, although DNA fragmentation was suppressed. The same examination was performed on the cells with anti-Fas antibody-induced apoptosis, and the same results were obtained. Some cells with a similar morphology were found even without the caspase-inhibitor in the early stage of anti-Fas antibody-induced physiological apoptosis. In addition, apoptotic cascade was reactivated by washing out the caspase inhibitor from the DNA degradation-suppressed cells. Therefore, this newly found morphological feature shows the presence of a step prior to caspase activation in the cells, and this is the first report presenting the pre-caspase-activated step in the apoptotic cascade.

Inhibition of ubiquitin-proteasome pathway activates a caspase-3-like protease and induces Bcl-2 cleavage in human M-07e leukaemic cells.

The ubiquitin-proteasome pathway is the principal mechanism for the degradation of short-lived proteins in eukaryotic cells. Here we examine the possibility that ubiquitin-proteasome is involved in regulating the levels of Bcl-2, which is abundantly expressed in M-07e cells, a granulocyte/macrophage colony-stimulating factor (GM-CSF)-dependent human leukaemic cell line. Apoptosis in M-07e cells, induced by GM-CSF withdrawal, was associated with a gradual cleavage of Bcl-2 into a 22 kDa fragment. Treatment of M-07e cells with benzyloxycarbonyl-Leu-Leu-l-leucinal (Z-LLL-CHO; MG-132), a reversible ubiquitin-proteasome inhibitor, markedly accelerated the cleavage of Bcl-2 and promoted cell death through the apoptotic pathway. The cleavage of Bcl-2 was inhibited by a caspase-3 (CPP32)-specific inhibitor [acetyl-Asp-Glu-Val-Asp-CHO (DEVD-CHO)] but not caspase 1 inhibitor (acetyl-Tyr-Val-Ala-Asp-CHO), suggesting that Bcl-2 is a proteolytic substrate of a caspase-3-like protease activated during apoptosis. The simultaneous addition of recombinant human GM-CSF (rhGM-CSF) to M-07e cultures delayed the activation of caspase 3 and Bcl-2 cleavage triggered by Z-LLL-CHO, suggesting that the activation of the GM-CSF signalling pathway can partly overcome the apoptotic effect induced by Z-LLL-CHO. Apoptosis induced by inhibition of the proteasome pathway was verified in studies with lactacystin, a highly specific and irreversible proteasome inhibitor. Lactacystin-induced apoptosis in M-07e cells was remarkably similar to that induced by Z-LLL-CHO, which included caspase 3 activation, cleavage of Bcl-2 into a 22 kDa fragment and, ultimately, cell death. These results showed that inhibition of the ubiquitin-proteasome pathways can lead to the activation of a DEVD-CHO-sensitive caspase and induces Bcl-2 cleavage, which might have a role in mediating apoptosis in M-07e cells.

Physiological roles of leupeptin and extracellular proteases in mycelium development of Streptomyces exfoliatus SMF13.

Streptomyces exfoliatus SMF13 produced leupeptin, chymotrypsin-like protease (CTP), metalloprotease, and trypsin-like protease (TLP) extracellularly. The activity of TLP was specifically inhibited by leupeptin. Production of leupeptin was closely associated with growth but leupeptin was inactivated by leupeptin-inactivating protein (LIP) when growth reached the stationary phase in submerged cultures, or when aerial mycelia started to form on surface cultures. Autolysis of mycelia after the stationary phase in submerged cultures was apparently retarded by the addition of leupeptin; on surface cultures, aerial mycelium formation was clearly retarded by the addition of leupeptin. We propose that CTP participates primarily in utilization of a proteinaceous nitrogen source, that TLP functions as an essential enzyme involved in the metabolism of mycelial protein, that leupeptin inhibits the activity of TLP and that LIP inactivates leupeptin. The cascade of regulatory actions of the compounds, which are produced sequentially during mycelium development, may provide selective advantages in adverse culture conditions.

Inhibition of apolipoprotein E degradation in a post-Golgi compartment by a cysteine protease inhibitor.

In our prior studies on lipoprotein stimulation of apolipoprotein E (apoE) secretion in HepG2 cells, it became clear that a proportion of the newly synthesized apoE was degraded intracellularly (Ye, S. Q., Olson, L. M., Reardon, C. A., and Getz, G. S. (1992) J. Biol. Chem. 267, 21961-21966). The present study was designed to determine the nature of the proteases and the intracellular sites involved in newly synthesized apoE degradation. The effect of seven protease inhibitors on total apoE levels was examined. Only N-acetyl-leucyl-leucyl-norleucinal (ALLN), a cysteine protease inhibitor, significantly blocked apoE degradation in HepG2 cells. The amount of total apoE from cells chased with ALLN for 4 h was increased by 1.58 +/- 0.05-fold relative to the controls (n = 11, p < 0.01). ALLN extended the half-life of apoE from 2.61 h to 4.38 h (p < 0.01). This effect occurs in a post-Golgi compartment since in the presence of brefeldin A, ALLN had no effect on intracellular apoE levels. Chloroquine and NH4Cl significantly reduced apoE degradation; however, ALLN plus either of these reagents appear to have an additive effect. The amount of apoE in cells chased in Ca(2+)-free medium was significantly higher than that in cells chased in Ca(2+)-containing medium (1.70 +/- 0.07-fold, n = 6, p < 0.01). ALLN plus Ca(2+)-free medium had no additive effect. ALLN had no significant influence on the degradation of albumin but had a similar effect on transfected apoE in Chinese hamster ovary cells. Overall, these data suggest that apoE may be degraded in a post-Golgi compartment of HepG2 and Chinese hamster ovary cells by lysosomal enzymes and cytosolic Ca(2+)-dependent cysteine proteases. ALLN inhibits the latter.

Cellular detoxification of tripeptidyl aldehydes by an aldo-keto reductase.

Calpain inhibitor I, N-acetyl-leucyl-leucyl-norleucinal (ALLN), a cell-permeable synthetic tripeptide with an aldehyde at its C terminus specifically inhibits the activity of cysteine proteases. Since the regulated degradation of 3-hydroxy-3-methylglutaryl-CoA reductase in Chinese hamster ovary (CHO) cells is blocked by ALLN and ALLN has a cytotoxic effect on cells, we attempted to isolate ALLN-resistant cells that overproduce an ALLN-sensitive protease(s). However, we obtained an ALLN-resistant cell line that overproduced P-glycoprotein (Sharma, R. C., Inoue, S., Roitelman, J., Schimke, R. T., and Simoni, R. D. (1992) J. Biol. Chem. 267, 5731-5734). To circumvent the multidrug resistance (MDR) phenotype during selection, we have stepwise selected an ALLN-resistant cell line of CHO cells in the presence of verapamil, a competitive inhibitor of P-glycoprotein. These non-MDR ALLN-resistant cells overexpress a 35-kDa protein and have increased aldo-keto reductase activity. Partial amino acid sequences of the 35-kDa protein are highly homologous to members of the aldo-keto reductase superfamily. The aldo-keto reductases are NADPH-dependent oxidoreductases and catalyze reduction of a wide range of carbonyl compounds such as aldehydes, sugars, and ketones. Our findings support the concept that a physiological function for aldo-keto reductases may be detoxification.

Effects of brefeldin A on cleavage of invariant chain to p21 and p10 and the appearance of Ii-freed class II MHC dimers.

Intracellular cleavage of class II MHC-associated Ii to p21 and p10 and the appearance of Ii-freed alpha, beta dimers were concurrent events lasting from 1 to 6 hr after synthesis of alpha, beta, Ii trimers, possibly related to charging of foreign peptides to the class II MHC antigen-binding site. Sequential immunoprecipitations of pulse-chase radiolabeled cells were made four times with anti-Ii monoclonal antibody to remove Ii and alpha, beta, Ii trimers and then with anti-class II antibody to detect the time-dependent appearance of Ii-freed alpha, beta dimers. The cleavage of Ii to p21 and p10 was revealed in leupeptin-treated cells. Cell treatment with Brefeldin A (BFA) was associated with a decrease in Ii-freed alpha, beta dimers, with inhibition of leupeptin-revealed cleavage of Ii to p21 and p10, and with persistence of endoglycosidase H susceptibility of Ii and class II alpha, beta chains. We conclude that in untreated cells, cleavage and release of Ii from class II MHC alpha and beta chains occur after those complexes traverse a BFA-sensitive step in the Golgi apparatus.

Significant effects of Z-Gln-Val-Val-OME, common sequences of thiol proteinase inhibitors on thiol proteinases.

The first studies on a series of the small synthetic thiol proteinase inhibitors, conservative common sequences in several thiol proteinase inhibitors, are described. Among the many interesting findings with synthetic thiol proteinase inhibitors was the observation that the most effective analogue, Z-Gln-Val-Val-Ala-Gly-OMe, whose amino and carboxyl groups were protected with Z and OMe, respectively, showed inhibitory activity on papain and cathepsin B and protected papain from egg cystatin, human low-molecular-weight kininogen and T-kininogen-induced inhibition but not from leupeptin-induced inhibition. Moreover, it was revealed that Z-Gln-Val-Val-OMe was the smallest peptide to exhibit a protective effect on papain.

Tissue and subcellular distribution of enzymes inactivating leupeptin.

Leupeptin, a proteinase inhibitor obtained from culture filtrates of Streptomyces sp., has been proposed as a valuable agent for the restriction of proteolysis in vivo. We have previously shown that mammalian tissues possess an enzymic system that is capable of inactivating leupeptin (Beynon RJ, Brown CP & Butler PE, 1981, Acta Biol. Med. Germ. 40, 1539-1546). This paper demonstrates the ubiquitous distribution of the inactivating system throughout mammalian tissues and provides evidence for the location of the enzyme(s) in the soluble fraction of the cell.

The inactivation of streptomyces-derived proteinase inhibitors by mammalian tissue preparations.

The proteinase inhibitors leupeptin and chymostatin are inactivated by preparations of perfused mouse liver. The inhibitors are degraded maximally at neutral or alkaline pH values. The inactivating enzymes are inhibited by Dip-F and pms-F but not by EDTA, 1,10 phenanthroline or iodoacetic acid. The significance of these results is discussed in terms of the potential of the inhibitors as antiproteolytic drugs.