Expression and characterization of the gD protein of HSV-2 fused to the tetramerization domain of the transcription factor p53.

The highly immunogenic glycoprotein D (gD) of herpes simplex virus type 2 (HSV-2) is a very important element for entry of this virus into host cells. These characteristics have made this protein a very interesting HSV-2 subunit vaccine candidate. Despite efforts to prevent genital herpes using gD-based subunit vaccines, to date, clinical trials using this antigen have failed. Therefore, using a small animal model, we sought to determine if a tetramerized truncated form of gD subunit vaccine, produced by recombinant baculovirus infected insect larvae, would elicit better protection against genital herpes than a monomeric gD-2 subunit vaccine. Three out of 5 mice immunized with the tetramerized antigen produced in a baculovirus expression vector system, survived a lethal challenge with a wild type HSV-2 strain (for more than 3 weeks after challenge). In contrast, all the mice (5) immunized with the truncated protein, produced by the same methodology, died within 2 weeks after challenge. These results suggest that multimerization (increasing the structural complexity) of the truncated gD antigen might be more likely protective than the monomer form. Also the use of an alternative cost-efficient eukaryotic expression system is described.

The IE180 protein of pseudorabies virus suppresses phosphorylation of translation initiation factor eIF2α.

We have previously shown that the porcine alphaherpesvirus pseudorabies virus (PRV) efficiently interferes with phosphorylation of the eukaryotic translation initiation factor eIF2α. Inhibition of phosphorylation of eIF2α has been reported earlier for the closely related alphaherpesvirus herpes simplex virus 1 (HSV-1) through its ICP34.5 and US11 proteins. PRV, however, does not encode an ICP34.5 or US11 orthologue. Assays using cycloheximide, UV-inactivated PRV, or phosphonoacetic acid (PAA) showed that de novo expression of one or more (immediate) early viral protein(s) is required for interference with eIF2α phosphorylation. In line with this, a time course assay showed that eIF2α phosphorylation was abolished within 2 h after PRV inoculation. PRV encodes only one immediate-early protein, IE180, the orthologue of HSV-1 ICP4. As reported earlier, a combinational treatment of cells with cycloheximide and actinomycin D allowed expression of IE180 without detectable expression of the US3 early protein in PRV-infected cells. This led to a substantial reduction in eIF2α phosphorylation levels, indicative for an involvement of IE180. In support of this, transfection of IE180 also potently reduced eIF2α phosphorylation. IE180-mediated interference with eIF2α phosphorylation was not cell type dependent, as it occurred both in rat neuronal 50B11 cells and in swine testicle cells. Inhibition of the cellular phosphatase PP1 impaired PRV-mediated interference with eIF2α phosphorylation, indicating that PP1 is involved in this process. In conclusion, the immediate-early IE180 protein of PRV has the previously uncharacterized ability to suppress phosphorylation levels of the eukaryotic translation initiation factor eIF2α.

Characteristics of the major structural proteins of African swine fever virus: Role as antigens in the induction of neutralizing antibodies. A review.

African swine fever virus (ASFV) has been traditionally a major animal health problem worldwide, with important economic impact for the pig industry. Recently the disease has re-emerged in large areas of the world, including China and Eastern Europe. Therefore, it seems timely to summarize our current understanding of ASFV proteins and their antigenic properties, in connection with potential vaccine formulations. Here we review the main characteristics of the major structural proteins p150, p72 and p17 of ASFV and their antigenic properties. In particular, we emphasize that p17 was detected as a specific antigen in the immunoreaction of pig sera with neutralizing antibodies. In addition, specific immunoreactions against IP97, IP27, IP25.5, IP23 and IP13 viral infection proteins were also detected in these sera. The viral structural proteins have been studied with intracellular and extracellular viruses and, therefore the differences between both classes of viruses were also reviewed.

Regulation of pseudorabies virus gG glycoprotein gene promoter independently of pseudorabies immediate early IE180 protein.

The pseudorabies virus (PRV) glycoprotein known as gG is generally regarded as an early protein, and the immediate early IE180 protein regulates its expression during infection. This study, however, provides evidence that although induction by IE180 is observed, the expression of a marker protein (EGFP), or gG itself, under the control of the gG promoter, can also occur independently of the expression of IE180. This result was demonstrated both with transient transfection assays using plasmids and with viral infections. In transient transfections, the expression under control of the gG promoter depends on the cell type and surprisingly, can be 1.3-fold higher than the expression under the control of the IE180 promoter in Hela Tet-Off cells. Recombinant PRV S3 was constructed by replacing gE in the PRV genome with a chimeric transgene, expressing EGFP under the control of the gG promoter. In PK15 cells infected with NIA-3 wild-type virus or with S3 recombinant virus, expression of gG PRV mRNA (or EGFP mRNA) under the control of the gG promoter in the presence of cycloheximide was detected by RT-PCR. This again indicates that some basal expression was produced in infected cells independently of IE180. This expression was augmented by IE180 protein in both plasmid transfections and viral infections.

Partial complementation between the immediate early proteins ICP4 of herpes simplex virus type 1 and IE180 of pseudorabies virus.

We previously described that the immediate early (IE) IE180 protein of PRV can down-regulate the transactivation of the ICP4 promoter of HSV-1, and that the d120 virus (an ICP4-deficient HSV-1 strain) can partially replicate its viral DNA in the presence of the IE180 protein. Herein, we demonstrate that this partial complementation of d120 by IE180 is sufficient for transcription of ß, γ1 and γ2 products such as DNA pol, VP16 and gC, respectively. However, expression levels are low for VP16 and even lower for the gC, such that IE180 is unable to fully substitute for ICP4 functionally. Viral progeny was not detected in PK15 cells expressing PRV IE180.

Dry sliding wear behaviour of ß-type Ti-Nb and Ti-Mo surfaces designed by diffusion treatments for biomedical applications.

The dry sliding wear behaviour of different Ti-Nb and Ti-Mo surfaces was investigated in order to evaluate the role of Nb and Mo ß-stabilizing elements in titanium wear resistance to consider them for biomedical applications. Dry sliding wear tests were performed under unlubricated conditions using a ball-on-plate tribometer (UMT) with reciprocating lineal movement of 1 Hz frequency at different loads (2 and 5 N) and against two counterface materials (alumina and stainless steel) to assess the effect of these parameters on wear. The results indicated an improvement in wear resistance for all the modified Ti surfaces. Metal-on-metal surfaces exhibited higher wear rate than ceramic-on-metal, and higher wear was observed for the more severe conditions. Wear rate values on modified surfaces were between 53% and 96% lower compared to pure Ti tested at 2 N, and up to 79% lower than Ti at 5 N. In both cases the highest wear reduction was observed for Ti-MoNH4Cl surface.

DIVA diagnostic of Aujeszky's disease using an insect-derived virus glycoprotein E.

Commercial vaccines against Aujeszky's disease are mainly formulated using deleted versions of attenuated or inactivated Pseudorabies virus (PRV) particles lacking of the structural glycoprotein E (gE). Complementary diagnostic assays used to differentiate infected from vaccinated animals (DIVAs), are based on the detection of serum antibodies against gE. A recombinant version of the PRV gE protein was expressed in a baculovirus vector system in Trichoplusia ni insect larvae in order to obtain this diagnostic reagent for large scale diagnosis at reduced costs. A recombinant gE gene (gEr), lacking of signal peptide and transmembrane domains, was cloned into a modified baculovirus vector to allow glycosylation of the protein and its subsequent exportation to the extracellular space. Analysis by SDS-PAGE, Western-blotting and glycoprotein staining revealed that a glycosylated protein of the expected electrophoretic mobility was obtained in infected larvae. Time course experiments revealed that maximum expression levels were reached 72h post-infection using 10(4)pfu of the recombinant baculovirus (BACgEr) per inoculated larva. An indirect PRV gE-ELISA was developed using gEr as a coating antigen. A comparison between larvae-derived PRV gE-ELISA and two commercially available PRV diagnostic kits showed good correlation between assays and better sensitivity when testing certain sera pig samples using the gEr ELISA. More than 30,000 ELISA determinations could be performed from crude extracts obtained from a single larva infected with the recombinant baculovirus, indicating the feasibility of this strategy for inexpensive production of glycosylated antigens for PRV diagnosis.

A comparison of enhanced green fluorescent protein expression induced by immediate-early cytomegalovirus (IE-CMV) and gG pseudorabies virus (gG-PRV) promoters, using pseudorabies virus amplicons as vectors.

This study compares the expression efficiencies of the IE-CMV and gG-PRV promoters following their transfection into cultured human and monkey cells, using pseudorabies virus amplicons as vectors and enhanced green fluorescence protein (EGFP) as an expression marker. EGFP expression was similarly strong with both promoters. Pseudorabies virus amplicons appear to be useful vectors in gene expression studies due to their replication in the presence of helpers and their wide range of cellular hosts.

Expression of the immediate early IE180 protein under the control of the hTERT and CEA tumor-specific promoters in recombinant pseudorabies viruses: Effects of IE180 protein on promoter activity and apoptosis induction.

Since the pseudorabies virus (PRV) genome encodes for a single immediate-early protein, IE180, we reasoned that this strong transactivating protein could represent a key regulatory switch that could be genetically manipulated in order to alter its tropism towards cancer cells. We therefore initiated studies to test whether the human telomerase reverse transcriptase (hTERT) and carcinoembryonic antigen (CEA) tumor promoters could functionally replace the IE180 promoter. We show that both promoters can functionally substitute the IE180 promoter in plasmid constructs and recombinant viruses, and observed that IE180 differentially auto-regulated each promoter tested, with PRV IE180 negatively regulating the hTERT promoter but positively hyper-activating the CEA promoter. Interestingly, we also observed that the recombinant PRV-TER and PRV-CEA viruses preferentially replicated in diverse cancer cell lines compared to control non-cancer cells, and the PRV-CEA was capable of additionally inducing a profound apoptotic phenotype which we correlated to the overexpression of IE180.

Construction of recombinant pseudorabies viruses by using PRV BACs deficient in IE180 or pac sequences: Application of vBAC90D recombinant virus to production of PRV amplicons.

We describe a simple and efficient method to obtain recombinant pseudorabies virus (PRV) in mammalian cells by using the PRV BACs, PBAC80 deficient in pac sequences and PBAC90 deficient in the IE180 gene. These essential viral sequences were used as targets to obtain viable recombinant viruses. PBAC80 was constructed, confirmed to encode a copy of the IE180 gene regulated by the inducible Ptet promoter, and used to obtain recombinant attenuated PRV viruses that express the EGFP protein (PRV-BT80GF virus). PBAC90 was used to obtain the vBAC90D virus, deficient in IE180 and free of replication-competent revertants, and which can be used as a helper in the production of PRV amplicons.

Inhibition of herpes virus infection in oligodendrocyte cultured cells by valproic acid.

Valproic acid (VPA) is a small fatty acid used for treatment of different neurologic diseases such as epilepsy, migraines or bipolar disorders. VPA modulates different processes of cell metabolism that can lead to alterations in susceptibility of several cell types to the infection of Human Immunodeficiency Virus (HIV), Epstein-Barr virus (EBV), as well as to exert an inhibitory effect on the replication of different enveloped viruses in cultured cells. Taken these data into account and the fact that HSV-1 has been involved in some neuropathies, we have characterized the effect of VPA on this herpesvirus infection of the differentiation/maturation-inducible human oligodendrocyte cell line HOG, which resulted more susceptible to VPA inhibition of virus growth after cell differentiation. In these cells, the role of VPA in virus entry was tackled. Incubation with VPA induced a slight but reproducible inhibition in the virus particles uptake mainly observed when the drug was added in the adsorption or early upon infection. In addition, transcription and expression of viral proteins were significantly downregulated in the presence of VPA. Remarkably, when the infective viral production was assessed, VPA dramatically blocked the detection of infectious HSV-1 particles. Herein, our results indicate that VPA treatment of HOG cells significantly reduces the effect of HSV-1 infection, virus entry and productivity without affecting cellular viability.

Conversion of US3-encoded protein kinase gene from pseudorabies virus in a diploid gene located within inverted repeats by genetic recombination between the viral genome isomers.

The pseudorabies virus (PRV) genome consists of two components, long (U(L)) and short (U(S)) regions. The U(S) region is the only one capable of inverting itself relative to the U(L) region during productive infection, generating two equimolecular isomeric forms of viral DNA. Here we describe a recombinant virus (gIp2) generated by genetic recombination between pseudorabies viral isomers. This recombination event was observed in the parental virus gIS8, which was obtained by insertion of the alpha4-TK herpes simplex virus type 1 (HSV1) gene. The growth of gIS8 virus in the presence of 5-bromodeoxyuridine (BrdU) yielded gIp2. This was generated by nonhomologous recombination either between the two viral genomic isomers of gIS8, P and I(U/S), or between the same P isomer using nonhomologous and homologous recombination, with loss of the HSV1 sequences and duplication of the PRV US3-encoded protein kinase gene. Virus gIp2 is negative for TK, gI, gE, 11K and 28K and shows an in vitro replication capacity in neuronal cells approximately 22 times lower than that of parental virus gIS8, and similar to that of the Bartha vaccine virus strain in monkey kidney and human neuronal cells.

Analysis of genetic variability of populations of herpes simplex viruses.

An analysis of genetic variability of herpes simplex virus type 1 and type 2 populations of the Madrid (Spain) area has been carried out by digestion of viral DNA with restriction endonucleases. The index of nucleotide diversity indicated that herpes simplex virus type 1 has a slightly, although statistically significant, higher degree of heterogeneity than type 2. A phylogenetic tree for each type of virus has been constructed. The evolutionary pattern followed by both types of viruses ('star-like' topology) suggest that all the isolates analyzed evolved from a unique origin for each type of virus.

Isolation and characterization of TK-deficient mutants of African swine fever virus.

African swine fever virus induces the synthesis of thymidine kinase (TK) in BHK TK-negative cells as an immediate early protein. The TK gene is not essential for growth of ASFV in cell culture and a stable viral strain deficient in TK has been isolated (E70NTKp). The genetic lesion of this ASFV TK- strain was identified by TK gene nucleotide sequencing, showing a nucleotide deletion leading to a -1 frameshift and a nonsense codon residue downstream of the deletion. The availability of this viable ASFV variant deficient in TK activity allows the insertion of foreign genes in the ASFV genome for genetic and biochemical studies.

Comparative study of the genetic variability in thymidine kinase and glycoprotein B genes of herpes simplex viruses by the RNase A mismatch cleavage method.

The variability of herpes simplex viruses has been measured using the RNAse A mismatch cleavage method in two genes: thymidine kinase and glycoprotein B of both HSV-1 and HSV-2. This technique permitted us to study the variability of the virus with a greater level of resolution than restriction endonuclease analysis. The phylogenetic trees obtained for the different genes allowed us to identify consistent clusters of viruses circulating in the same geographical area. Our results showed that thymidine kinase is more heterogeneous than glycoprotein B for both subtypes of HSV, and confirmed that HSV-1 is more heterogeneous than HSV-2 for both genes. This is the first time that this kind of analysis has been applied to DNA viruses.

Seroprevalence of Neospora caninum infection in dairy and beef cattle in Spain.

In recent years, neosporosis has been identified as a major cause of abortion in dairy and beef cattle. Although the disease has been described worldwide, there is a Jack of information concerning the prevalence of this infection in different cattle production systems. The aim of this study was to investigate the seroprevalence of Neospora caninum infection in a representative area of beef and dairy cattle production in Spain. A cross-sectional study was undertaken in which herds constituted the initial sampling unit and two strata (dairy and beef herds) were considered. Using a 95% level of confidence and setting 5% (beef) and 5.4% (dairy) error limits, 216 beef and 143 dairy herds were randomly selected and sampled. Nine animals (> 1 year old) were randomly sampled in each herd to detect the presence of the infection. A herd was considered infected when at least one animal was seropositive. In total, serum samples from 1121 dairy and 1712 beef animals were collected and tested for specific anti-N. caninum IgG using an ELISA. Specific antibodies were detected in 55.1% (119/216) beef and 83.2% (119/143) dairy herds. Individual prevalences obtained were 17.9% (306/1712) for beef and 35.9% (402/1121) for dairy animals. Presence of N. caninum infection was higher in dairy than in beef herds and the association between infection and the cattle production system (dairy or beef) was statistically significant [(chi2)Y= 29.21, P < 0.001, OR = 4.04 (2.35-6.99)]. Herd size of dairy cattle did not appear to be associated with N. caninum infection. On the contrary, infection was associated with herd size in beef cattle (chi2 = 12.79, P < 0.01). Finally, no association was found between replacement or pasture management and infection in beef herds.

Detection and typing of human herpesviruses by multiplex polymerase chain reaction.

A new approach to simultaneous detection and typing of related agents by the multiplex polymerase chain reaction (PCR) is described. The reaction was been applied to human herpesviruses by nested amplification of fragments of the DNA polymerase genes. During the first amplification, primers were used as two equimolar mixtures of non-degenerate oligonucleotides, aligning the 3'-ends with selected consensus regions, and their 5'-ends with the non-related sequences of each herpesvirus to be amplified. The specific fragments obtained were the substrate for a second, multiplex reaction for which primers were designed to produce different-size fragments for each related virus. The results showed high specificity for the detection and typing of the human herpesviruses with known sequences and no amplification of human DNA, in spite of the presence of the same consensus regions within human DNA polymerase alpha. It is concluded that this new approach would be useful for the differential diagnosis of herpesviruses, as well as for other groups of agents with conserved regions in their genomes and causing similar syndromes.

Rapid and high sensitivity test for direct detection of bovine herpesvirus-1 genome in clinical samples.

A procedure for direct detection of the BHV-1 genome in clinical samples, including semen, was developed. The method is based on the PCR amplification of a highly conserved DNA fragment within the glycoprotein gI sequence of the virus (323 bp between nt 1491 to nt 1814). The method is rapid and highly specific for all 27 subtypes assayed, which are included in the clinical and genetically different groups of BHV-1. The viral origin of the PCR product was assessed by Southern hybridization, with an internal probe. The method for DNA isolation from clinical samples included a fast extraction procedure with Chelex 100 resin allowing the loading of larger amounts of DNA in the PCR and in turn increasing the sensitivity of the method of detection. The level of sensitivity achieved by PCR was in the range of 1 TCID(50). This PCR assay may be an useful tool for BHV-1 monitoring in semen banks at low cost.

Construction and properties of a recombinant pseudorabies virus with tetracycline-regulated control of immediate-early gene expression.

A study was carried out to determine whether altering the control of expression of the IE180 gene of pseudorabies virus (PRV), by replacing the IE180 promoter with the tetracycline-responsive promoter (Ptet), affects virus replication and virulence. This PRV-BT90 mutant virus was constructed by complementation and recombination in Hela Tet-Off cells. The virus yield produced by infection of Hela Tet-Off cells with PRV-BT90 was similar to that of the parental virus vBecker2. Viral replication of PRV-BT90 was reduced in Vero cells as reflected by a reduction of virus yield and plating efficiency compared to vBecker2. PRV-BT90 plaque formation in Hela Tet-Off cells was inhibited in the presence of doxycycline, whereas vBecker2 plaque formation was not affected. Subcutaneous infection of mice with the two viruses revealed a LD(50) higher than 10(6) TCID(50) for the PRV-BT90 mutant virus while the LD(50) was 178 TCID(50) for the vBecker2 parental virus.

Detection of DNA viruses by radioactive and non radioactive DNA probes: application to African swine fever virus.

A molecular hybridization technique using radioactive and non radioactive DNA probes, has been used to detect ASFV DNA immobilized on nitrocellulose paper. It is based on the use of plasmid pRPEL-2 as a hybridization probe. This plasmid contain the H-ClaI DNA fragment (size 5.6 Kbp) from the Spain-70 strain of ASFV. The sensitivity of detection using radioactive 32P-probes (specific activity about 2 X 10(8) cpm per microgram) was about 20 pg of viral DNA. The 32P-pRPEL-2 DNA probe can detect about 100 infected MS cells and failed to hybridize to DNA from HSV-2, MS cells or salmon sperm. The sensitivity with non radioactive probes was about 4 ng of viral DNA for a sulfonated DNA probe and 400 pg for a biotinylated DNA probe. The efficiency of DNA fixation to the filter, the effect of EDTA and of ultrasonic treatment of the sample were also investigated.