Direct measurement of CAT activity by incubation of CAT-expressing cells in medium containing chloramphenicol

We describe a simple, flexible, rapid, sensitive and accurate in vivo assay of the bacterial chloramphenicol acetyltransferase (CAT) enzyme expressed in mammalian cells. The assay is based on the ability of the substrate and products of this enzyme reaction (viz. chloramphenicol and its acetylated derivatives) to equilibrate rapidly between the cells and the surrounding tissue culture medium. We find that chloramphenicol added to the culture medium readily enters the cells and becomes acetylated by the intracellular CAT enzyme. The acetyl derivatives leave the cell and appear rapidly in the culture medium. Due to the large excess of the extracellular compared to the intracellular fluid and due to rapid equilibration of chloramphenicol and its derivatives between them, we find that the bulk of the chloramphenicol and its acetyl derivatives are present in the culture medium at any given time point. Chloramphenicol and its acetylated products are extracted from the medium with ethyl acetate and resolved by thin layer chromatography giving an accurate measurement of the intracellular CAT activity. Sensitive and accurate quantitation of CAT activity in this assay is made possible by the addition of trace amounts of 14C-labeled chloramphenicol to the medium.     

活性氧胁迫促进枯草芽孢杆菌WSHDZ-01过量合成过氧化氢酶

研究了乙醇和H2O2胁迫对芽孢杆菌(Bacillussp.)WSHDZ-01过量合成过氧化氢酶(Catalase,简称CAT)的影响。在Bacillussp.WSHDZ-01培养体系中添加2.0%(V/V)乙醇,胞内过氧化氢酶酶活达到11151U/mL,是对照组的2.5倍。而在培养体系中添加0.3%(V/V)H2O2,则使胞内过氧化氢酶不断分泌到胞外,胞外酶占总酶活比率增加至27%。基于上述发现,分别以不添加胁迫物(a)、乙醇胁迫(b)、H2O2胁迫(c)为对照,在培养体系中维持持续的乙醇和H2O2胁迫,结果表明:1)胞外酶比例达到82.5%;2)发酵周期缩短为42h,比对照a延长了6h,比对照b和c分别缩短了8h和6h;3)生产强度达到470U/(mL·h),比对照a提高了18.6%,为过氧化氢酶工业化生产奠定了基础。     

Secretion of cytoplasmic and nuclear proteins from animal cells using novel secretion modules

Production of recombinant proteins that are not secreted outside the producing cells usually requires purification steps that can result in significant yield reductions and loss of biological activity. Using insect cells as a model system to devise the means for secreting recombinant proteins that are not normally destined for secretion outside the producing cells, we initially examined the ability of an insect-specific signal peptide sequence to direct secretion of two intracellular proteins (the cytoplasmic enzyme chloramphenicol acetyl transferase [CAT] and the nuclear protein Bombyx mori chorion factor 1 [BmCF1]) expressed in transfected silkmoth cells. Although this signal sequence functioned efficiently as a chimera with normally secreted proteins, it failed to secrete CAT and BmCF1, suggesting that additional signals are required for passage of these polypeptides through the secretion pathway. For this reason, we also generated a secretion module consisting of the secreted protein juvenile hormone esterase (JHE), a spacer region containing a histidine tag and an endopeptidase cleavage site, to which coding sequences of choice can be cloned as C-terminal extensions. In C-terminal fusions with the CAT and BmCF1 open reading frames, the N-terminal JHE moiety was able to provide all the signals necessary for secretion of CAT and BmCF1 into the extracellular environment. The histidine tag present in the spacer region allowed purification of fusion proteins by metal affinity chromatography under nondenaturing conditions, and the enteropeptidase cleavage site was recognized and cleaved by the cognate protease causing the release of the intracellular proteins from the secretion module. We also show that another secreted protein, human granulocyte-macrophage colony stimulating factor (GM-CSF) can substitute for JHE in the secretion module and that these secretion modules can function in mammalian cells.     

蝉虫草菌丝体胞内和胞外多糖抗肝细胞氧化损伤比较研究

蝉虫草（蝉花）作为我国传统的中药材,是一种药食两用的虫生真菌,因含有丰富的活性物质而具有广泛的医疗保健价值。本研究以自由基清除率为指标分析蝉虫草胞内和胞外多糖的化学抗氧化活性,再以H₂O₂诱导的人肝LO2细胞氧化损伤为模型,进而分析比较二者对肝细胞氧化应激损伤的改善作用。结果表明,在化学抗氧化能力比较上,蝉虫草菌丝体胞外多糖有效清除?OH自由基、ABTS自由基和DPPH自由基的EC₅₀值分别为1.06mg/mL、0.96mg/mL和0.63mg/mL,而胞内多糖的EC₅₀值分别为3.71mg/mL、2.83mg/mL和1.70mg/mL,表明蝉虫草胞外多糖的化学抗氧化能力更强;在改善细胞氧化应激损伤比较上,与模型组对比,二者均能随着浓度递增而显著地提高细胞存活率,但胞外多糖比胞内多糖更强,当多糖浓度为5mg/mL时,胞外多糖细胞存活率达到92.36%,胞内多糖只达到82.07%;在调节细胞抗氧化酶清除ROS的机制上,与模型组对比,胞外多糖分别上调SOD酶活力2.51倍和CAT酶活力2.91倍,极显著地降低了细胞ROS水平（P<0.01）来改善细胞的氧化应激损伤作用。相应地,胞内多糖只上调了1.85倍和2.33倍,显著性地清除了ROS（P<0.05）,表明蝉虫草菌丝体胞外多糖具有更显著的抗肝细胞氧化损伤作用。本研究结果显示蝉虫草菌丝体胞外和胞内多糖均具有良好的抗肝氧化损伤活性,且胞外多糖比胞内多糖活性更好,为蝉虫草菌丝体多糖在保肝产品中的开发和应用提供了科学依据。     

Biosynthesis, processing, trafficking, and enzymatic activity of mouse neprilysin 2

Neprilysin 2 (NEP2) has been recently identified as a new member of the M13 subfamily of zinc-dependent metalloproteases and shares a highly homologous amino acid sequence with neprilysin (EC 3.4.24.11, NEP). NEP2 has been reported to exist as membrane-bound and soluble secreted variants. To investigate mechanisms of regulating NEP2 activity, we developed a simple and sensitive method for measuring NEP2 activity using synthetic substrates with a fluorescent probe. NEP2 only cleaved Suc-Ala-Ala-Phe-AMC, while NEP cleaved both Dansyl-D-Ala-Gly-p-nitro-Phe-Gly and Suc-Ala-Ala-Phe-AMC. Using HEK293 cells stably expressing mouse NEP2, we evaluated the effects of various reagents affecting post-translational modification and protein trafficking on extracellular NEP2 activity secreted into the culture medium. Inhibition of N-glycosylation by tunicamycin reduced both the enzymatic activity of extracellular NEP2 and the molecular size of intracellular NEP2. Disruption of the Golgi apparatus with brefeldin A markedly reduced extracellular NEP2 activity in parallel with intracellular NEP2 protein level in HEK293 cells. In contrast, the cytoskeleton disrupting reagents, nocodazole and cytochalasin B barely affected NEP2 activity. Two distinct calcium-perturbing reagents, a calcium ionophore A23187 and thapsigargin, reduced extracellular NEP2 activity. However, A23187-mediated down-regulation was not rescued by co-treatment with inhibitors of MAPK, calmodulin, or the proteasome/calpains. In conclusion, we established a simple and sensitive protocol which was able to discriminate NEP2 and NEP activity, and showed that intracellular transport and secretion of NEP2 is regulated by processes such as glycosylation, ER-Golgi transport, and intracellular calcium levels.     

Secretion of chondroitin SO4 by monolayer cultures of chick embryo chondrocytes

Monolayer cultures of chick embryo tibial chondrocytes incorporate 35SO42- into chondroitin SO4 which is rapidly secreted from the cells into two extracellular pools. Part of the extracellular chondroitin SO4 is recovered in a soluble form in the culture medium, and the remainder is associated with the cell matrix from which it is released by isotonic trypsinization. At 38 degrees C labeled chondroitin SO4 appears in the cell matrix fraction within 5 min after addition of 35SO42- and in the culture medium fraction 15 min after 35SO42- is added. The intracellular pool of labeled chondroitin SO4 reaches a steady state level of 150 to 200 pmol of bound SO4 per 10(6) cells in 60 min, while the cell matrix and medium fractions increase at rates of 3 and 1 nmol of bound SO4 per h per 10(6) cells, respectively. After 4 h of labeling, less than 20% of the newly synthesized cell-associated chondroitin SO4 is in the intracellular fraction. By labeling cells for 15 min at 25 degrees C 80% of the cell-associated chondroitin 35SO4 is obtained in the intracellular fraction. This material is chased without lag into both the cell matrix fraction and the medium fraction. A mixture of NaF and NaCN, both at 30 mM, lowers the cellular ATP level to 15% of normal and blocks secretion of the intracellular chondroitin SO4 into both extracellular fractions. Colchicine at 10(-6) M gives a partial inhibition of both synthesis and secretion of chondroitinSO4. Sucrose density gradient sedimentation analysis of the intracellular chondroitin SO4 and the two extracellular fractions shows that all three fractions contain both a heavy and light proteoglycan fraction. The intracellular light proteoglycan fraction is secreted preferentially into the culture medium where it represents 30% of the total culture medium pool. The ratio of 6-sulfated GalNAc to 4-sulfated GalNAc in the heavy proteochondroitin SO4 fraction is approximately twice that found for the light fraction.     

Secretion of nucleoside diphosphate kinase by mucoid Pseudomonas aeruginosa 8821: involvement of a carboxy-terminal motif in secretion

Nucleoside diphosphate kinase (Ndk) is a ubiquitous enzyme which functions in balancing the nucleotide pool of the cell. We have recently reported that in addition to being intracellular in both mucoid and nonmucoid Pseudomonas aeruginosa, Ndk is also secreted into the extracellular environment by mucoid P. aeruginosa cells. This secreted Ndk has biochemical activity similar to the intracellular Ndk and is 16 kDa in size. To demonstrate that Ndk is indeed secreted and to localize the secretion motif, we constructed an ndk knockout mutant, which lacks both intracellular and extracellular forms of Ndk. In this study, we report the construction of deletion derivatives made from the carboxy-terminal region of Ndk. These deletion derivatives were introduced into the ndk::Cm knockout mutant and were examined for the intracellular and extracellular presence of Ndk. It was observed that the carboxy-terminal 8-amino-acid region is required for the secretion of Ndk into the extracellular region. This region has the sequence DXXX, where X is a predominantly hydrophobic residue. Such sequences represent a conserved motif in proteins secreted by the type I secretory pathway in gram-negative microorganisms. To investigate the significance of this motif in the secretion of Ndk, we constructed a fusion protein of Ndk and the blue fluorescent protein (BFP) as well as a fusion protein of mutated Ndk (whose DTEV motif has been changed to AAAA) and the BFP. The presence of extracellular Ndk was detected only in the ndk::Cm knockout mutant harboring the wild-type BFP-Ndk protein fusion. We could not detect the presence of extracellular Ndk in the ndk::Cm knockout mutant containing the mutated BFP-Ndk protein fusion. In addition, we have also used immunofluorescence microscopy to localize the wild-type and mutated BFP-Ndk proteins in the cell. The significance of these observations is discussed.     

Urokinase-type and tissue-type plasminogen activators are essential for in vitro invasion of human melanoma cells

This study evaluates the contribution of two types of plasminogen activators (PAs; tissue-type PA (tPA) versus urokinase-type PA (uPA) toward the invasiveness of human melanoma cells in a novel in vitro assay. We identified two human melanoma cell lines, MelJuso and MeWo, expressing uPA or tPA as shown at mRNA, protein, and enzyme activity level. MelJuso cells produced uPA as well as plasminogen activator inhibitor-1 (PAI-1). The latter was, however, not sufficient to neutralize the cell-associated or secreted uPA activity. MeWo cells secreted tPA, but the enzyme was not found to be cell-associated. PAI-1 production by these cells was not detectable. Plasminogen activation and fibrinolytic capacity of both cell lines were reduced by anticatalytic monoclonal antibodies specific for the respective type of PA or by aprotinin. In a novel in vitro invasion assay, antibodies to PA as well as aprotinin decreased the invasiveness of both cell lines into a fibrin gel, Matrigel, or intact extracellular matrix. Our results confirm the importance of uPA-catalyzed plasminogen activation in tumor cell invasiveness. Furthermore, we provide evidence that tPA, beyond its key role in thrombolysis, can also be involved in in vitro invasion of human melanoma cells.     

Plasminogen activator: The major secreted neutral protease of cultured skeletal muscle cells

Clonal mouse skeletal muscle cells which differentiate in culture and from synpases with neuronal cells were found to secrete high levels of protease activity as measured with an ¹²⁵I-fibrin assay. The secreted proteolytic activity was more than 90% dependent upon the presence of plasminogen in the medium, and had a pH optimum at 7 to 8. This activity was not inhibited by n-ethylmaleimide, pepstatin, EDTA, or EGTA. At millimolar concentrations, greater than 90% inhibition was obtained with either soybean typsin inhibitor, epsilon aminocaproic acid, Trasylol, or leupeptin. Almost complete inhibition occured with 1 mM diisopropylfluorophosphate suggesting the presence of a serine residue at the catalytic site. In contrast to the high levels of secreted activity, a lower steady-state level of cell-associated protease activity was detected in cell lysates. The high level of plasminogen activator secreted into the medium of cultured muscle cells suggests a role for such extracellular protease activity in myogenesis during development and remodeling following muscle injury. Such information may be useful in understanding the initial degeneration of neuromusclar contacts in experimental and pathologic denervation.     

Vitamin B6 influences glucocorticoid receptor-dependent gene expression

We have examined the influence of intracellular vitamin B6 concentration on glucocorticoid receptor function in HeLa S3 cells transfected with a glucocorticoid-responsive chloramphenicol acetyltransferase (CAT) reporter plasmid. CAT activity is induced from this plasmid specifically by glucocorticoid hormones in a glucocorticoid receptor-dependent manner. The intracellular concentration of pyridoxal phosphate, the physiologically active form of the vitamin, was elevated by supplementation of the culture medium with the synthesis precursor pyridoxine and lowered by exposure to the pyridoxal phosphate synthesis inhibitor 4-deoxypyridoxine. Analysis of glucocorticoid responsiveness revealed that elevated concentrations of intracellular pyridoxal phosphate suppressed the amount of glucocorticoid-induced CAT activity whereas moderate deficiency enhanced the level of glucocorticoid receptor-mediated gene expression. In contrast, modulation of the intracellular pyridoxal phosphate concentration had no effect on either basal CAT activity derived from cells not stimulated with dexamethasone or on CAT activity derived from two glucocorticoid-insensitive reporter plasmids. The modulatory effects of pyridoxal phosphate concentration occur without changes in glucocorticoid receptor mRNA levels, glucocorticoid receptor protein concentration, or the steroid binding capacity of the receptor. These observations demonstrate that vitamin B6 selectively influences glucocorticoid receptor-dependent gene expression through a novel mechanism that does not involve alterations in glucocorticoid receptor concentration or ligand binding capacity.     

Intracellular L-arginine concentration does not determine NO production in endothelial cells: implications on the "L-arginine paradox"

We examined the relative contributory roles of extracellular vs. intracellular L-arginine (ARG) toward cellular activation of endothelial nitric oxide synthase (eNOS) in human endothelial cells. EA.hy926 human endothelial cells were incubated with different concentrations of (15)N(4)-ARG, ARG, or L-arginine ethyl ester (ARG-EE) for 2h. To modulate ARG transport, siRNA for ARG transporter (CAT-1) vs. sham siRNA were transfected into cells. ARG transport activity was assessed by cellular fluxes of ARG, (15)N(4)-ARG, dimethylarginines, and L-citrulline by an LC-MS/MS assay. eNOS activity was determined by nitrite/nitrate accumulation, either via a fluorometric assay or by(15)N-nitrite or estimated (15)N(3)-citrulline concentrations when (15)N(4)-ARG was used to challenge the cells. We found that ARG-EE incubation increased cellular ARG concentration but no increase in nitrite/nitrate was observed, while ARG incubation increased both cellular ARG concentration and nitrite accumulation. Cellular nitrite/nitrate production did not correlate with cellular total ARG concentration. Reduced (15)N(4)-ARG cellular uptake in CAT-1 siRNA transfected cells vs. control was accompanied by reduced eNOS activity, as determined by (15)N-nitrite, total nitrite and (15)N(3)-citrulline formation. Our data suggest that extracellular ARG, not intracellular ARG, is the major determinant of NO production in endothelial cells. It is likely that once transported inside the cell, ARG can no longer gain access to the membrane-bound eNOS. These observations indicate that the "L-arginine paradox" should not consider intracellular ARG concentration as a reference point.     

Identification, gene cloning and expression of serine proteases in the extracellular medium of Nicotiana tabacum cells

Recombinant proteins secreted from plant suspension cells into the medium are susceptible to degradation by host proteases secreted during growth. Some degradation phenomena are inhibited in the presence of various protease inhibitors, such as EDTA or AEBSF/PMSF, suggesting the presence of different classes of proteases in the medium. Here, we report the results of a proteomic analysis of the extracellular medium of a Nicotiana tabacum bright yellow 2 culture. Several serine proteases belonging to a Solanaceae-specific subtilase subfamily were identified and the genes for four cloned. Their expression at the RNA level during culture growth varied depending on the gene. An in-gel protease assay (zymography) demonstrated serine protease activity in the extracellular medium from cultures. This was confirmed by testing the degradation of an antibody added to the culture medium. This particular subtilase subfamily, therefore, represents an interesting target for gene silencing to improve recombinant protein production. Key message The extracellular medium of Nicotiana tabacum suspension cells contains serine proteases that degrade antibodies.     

Herpes simplex virus thymidine kinase enzymatic assay in transient transfection experiments using thymidine kinase-deficient cells.

An enzymatic assay for herpes virus simplex type 1 thymidine kinase (HSV-TK) that was sensitive enough to quantitate intracellular levels of enzyme transiently expressed after transfection of HSV-TK vectors into TK-deficient cells using the DNA-calcium phosphate coprecipitation technique is described. TK activity in extracts of transfected cells was determined by binding of [methyl-3H]thymidylate product to thin layers of polyethyleneimine (PEI)-impregnated cellulose. The assay used high-specific-activity [methyl-3H]thymidine as substrate, which required removal of anionic material on a column of PEI-cellulose to enhance the signal-to-noise ratio. The assay was linear over a wide range with respect to the amount of HSV-TK plasmid transfected or content of HSV-TK enzyme in cell extracts. To validate the assay in transient expression experiments, HSV-TK and chloramphenicol acetyltransferase (CAT) plasmids were cotransfected into NIH/3T3 tk- fibroblasts. Transient TK and CAT levels were concordant in cell extracts prepared from replicate plates of transfected cells. Normalizing the transient TK activity for CAT activity from the cotransfected "internal standard" CAT plasmid improved precision significantly, reducing the sample-to-sample coefficient of variation from 41 to 19%. CAT normalization reduced experimental variability mostly by correcting outlying results in transfection efficiency. The HSV-TK reporter gene system based on TK enzymatic assay was thus subject to experimental variation similar to that of the well-established CAT reporter function, demonstrating its utility in transient gene expression analysis.     

Secreted PCSK9 downregulates low density lipoprotein receptor through receptor-mediated endocytosis

Proprotein convertase subtilisin/kexin type 9 (PCSK9) is a protease that regulates low density lipoprotein receptor (LDLR) protein levels. The mechanisms of this action, however, remain to be defined. We show here that recombinant human PCSK9 expressed in HEK293 cells was readily secreted into the medium, with the prosegment associated with the C-terminal domain. Secreted PCSK9 mediated cell surface LDLR degradation in a concentration- and time-dependent manner when added to HEK293 cells. Accordingly, cellular LDL uptake was significantly reduced as well. When infused directly into C57B6 mice, purified human PCSK9 substantially reduced hepatic LDLR protein levels and resulted in increased plasma LDL cholesterol. When added to culture medium, fluorescently labeled PCSK9 was endocytosed and displayed endosomal-lysosomal intracellular localization in HepG2 cells, as was demonstrated by colocalization with DiI-LDL. PCSK9 endocytosis was mediated by LDLR as LDLR deficiency (hepatocytes from LDLR null mice), or RNA interference-mediated knockdown of LDLR markedly reduced PCSK9 endocytosis. In addition, RNA interference knockdown of the autosomal recessive hypercholesterolemia (ARH) gene product also significantly reduced PCSK9 endocytosis. Biochemical analysis revealed that the LDLR extracellular domain interacted directly with secreted PCSK9; thus, overexpression of the LDLR extracellular domain was able to attenuate the reduction of cell surface LDLR levels by secreted PCSK9. Together, these results reveal that secreted PCSK9 retains biological activity, is able to bind directly to the LDLR extracellular domain, and undergoes LDLR-ARH-mediated endocytosis, leading to accelerated intracellular degradation of the LDLR.     

Intracellular and extracellular activity of cathepsin D in the liver in cirrhosis and its involution

The distribution of cathepsin D in liver with CCl4 induced cirrhosis and its involution in rats was investigated by ultrastructural cytochemistry. Besides intracellular, it was revealed the extracellular activity of cathepsin D. The reaction product was on collagen fibers near the hepatocytes and connective tissue cells as well as on the hepatocytes microvilli and on the outside part of cellular membrane of connective tissue cells (macrophage, fibroblast, Ito cells). Hence the source of extracellular cathepsin D in liver are the parenchymatous as well as nonparenchymal cell elements. The results testify that under the cirrhosis and its involution, the cathepsin D takes part in intracellular proteolysis and is secreted by hepatocytes and connective tissue cells in the intracellular space; it also takes part in extracellular catabolism of connective tissue.     

Active electric properties of cardiac muscle

A model of electrical activity in the heart has been developed that treats the intracellular domain and the extracellular domain as electrical syncytia with anisotropic resistivities (bi-syncytial model). At the microscopic level, propagation is assumed to proceed primarily along the axes of individual cells. Considerations at the macroscopic level relate the transmembrane current to the intracellular and extracellular resistivity and the transmembrane potential. The result is a relationship between instantaneous extracellular potentials and cardiac action potentials.     

Generating controlled reducing environments in aerobic recombinant Escherichia coli fermentations: effects on cell growth, oxygen uptake, heat shock protein expression, and in vivo CAT activity

The independent control of culture redox potential (CRP) by the regulated addition of a reducing agent, dithiothreitol (DTT) was demonstrated in aerated recombinant Escherichia coli fermentations. Moderate levels of DTT addition resulted in minimal changes to specific oxygen uptake, growth rate, and dissolved oxygen. Excessive levels of DTT addition were toxic to the cells resulting in cessation of growth. Chloramphenicol acetyltransferase (CAT) activity (nmoles/microgram total protein min.) decreased in batch fermentation experiments with respect to increasing levels of DTT addition. To further investigate the mechanisms affecting CAT activity, experiments were performed to assay heat shock protein expression and specific CAT activity (nmoles/microgram CAT min.). Expression of such molecular chaperones as GroEL and DnaK were found to increase after addition of DTT. Additionally, sigma factor 32 (sigma32) and several proteases were seen to increase dramatically during addition of DTT. Specific CAT activity (nmoles/microgram CAT min. ) varied greatly as DTT was added, however, a minimum in activity was found at the highest level of DTT addition in E. coli strains RR1 [pBR329] and JM105 [pROEX-CAT]. In conjunction, cellular stress was found to reach a maximum at the same levels of DTT. Although DTT addition has the potential for directly affecting intracellular protein folding, the effects felt from the increased stress within the cell are likely the dominant effector. That the effects of DTT were measured within the cytoplasm of the cell suggests that the periplasmic redox potential was also altered. The changes in specific CAT activity, molecular chaperones, and other heat shock proteins, in the presence of minimal growth rate and oxygen uptake alterations, suggest that the ex vivo control of redox potential provides a new process for affecting the yield and conformation of heterologous proteins in aerated E. coli fermentations.     

Loss of activity in the secreted form of Escherichia coli haemolysin caused by an rfaP lesion in core lipopolysaccharide assembly

A transposon mutant of Escherichia coli 5K was isolated which reduced 10- to 50-fold the secreted extracellular haemolytic activity of cells carrying the complete hlyCABD operon while leaving unaffected the intracellular haemolytic activity and the levels of intracellular and extracellular haemolysin protein, HlyA. The transposon insertion was identified within the rfaP gene (required for attachment of phosphate-containing substituents to the lipopolysaccharide inner core), and extracellular haemolytic activity was restored in trans by the intact rfaP gene. The toss in cytolytic activity of the secreted HlyA protein was not related to the HlyC-directed acylation of the protoxin. Activity of the secreted toxin was restored by chaotropic agents and during rate-zonal centrifugation the mutant-secreted HlyA migrated as a larger species than the wild type. The results indicate that the rfaP mutation affects the aggregation behaviour of the active toxin during or following the signal peptide-independent secretion process.     

Serine phosphorylation of biosynthetic pro-urokinase from human tumor cells

Phosphorylation is a potent mechanism regulating the activity of many intracellular enzymes. We have discovered that the product of the human urokinase plasminogen activator gene, pro-uPA, is phosphorylated in serine in at least two human cell lines. Phosphorylation occurs within the cell during biosynthesis, and phosphorylated intracellular pro-uPA is secreted into the medium. Of the secreted pro-uPA molecules, 20-50% are phosphorylated in serine, thus representing a meaningful fraction of the total biosynthetic pro-uPA. Although the sites of phosphorylation have not yet been determined, at least two such sites must exist; in fact plasmin cleavage of phosphorylated single chain pro-uPA yields a two chain uPA in which both chains are phosphorylated. A specific function for pro-uPA phosphorylation has not yet been identified; however, it is tempting to speculate that, as in many other cases, phosphorylation may affect the activity of the enzyme, its response to inhibitors or the conversion of pro-uPA zymogen to active two-chain uPA. This would represent an additional way of regulating extracellular proteolysis, an important pathway involved in both intra- and extravascular phenomena like fibrinolysis, cell migration and invasiveness.     

Distinct domains of M-T2, the myxoma virus tumor necrosis factor (TNF) receptor homolog, mediate extracellular TNF binding and intracellular apoptosis inhibition.

The myxoma virus tumor necrosis factor (TNF) receptor homolog, M-T2, is expressed both as a secreted glycoprotein that inhibits the cytolytic activity of rabbit TNF-alpha and as an endoglycosidase H-sensitive intracellular species that prevents myxoma virus-infected CD4+ T lymphocytes from undergoing apoptosis. To compare the domains of M-T2 mediating extracellular TNF inhibition and intracellular apoptosis inhibition, recombinant myxoma viruses expressing nested C-terminal truncations of M-T2 protein were constructed. One mutant, deltaL113, containing intact copies of only two cysteine-rich domains, was not secreted and was incapable of binding rabbit TNF-alpha yet retained full ability to inhibit virus-induced apoptosis of RL-5 cells. Thus, the minimal domain of intracellular M-T2 protein required to inhibit apoptosis is distinct from that required by the extracellular M-T2 for functional TNF-alpha binding and inhibition. This is the first report of a virus-encoded immunomodular protein with two distinct antiimmune properties.