Phylodynamics of Alagoas vesiculovirus in Brazil.

The vesicular stomatitis virus belongs to the Rhabdoviridae family, genus Vesiculovirus. Four species (New Jersey, Indiana, Cocal, and Alagoas) are responsible for disease outbreaks in Western Hemisphere countries. In Brazil, the Alagoas virus is responsible for the main outbreaks of the disease, mainly in the states of the Northeast, Midwest, and Southeast regions of the country. The present study aimed to perform the genetic characterization of 41 vesicular stomatitis virus samples. RNA was extracted using Trizol and used to amplify part of gene P. Amplicons were sequenced using the Sanger method. The phylogenetic trees generated showed that Alagoas vesiculoviruses were positioned into three groups: group A formed by the first virus isolate; group B by isolates from states in the Northeast region; and group C by isolates from the states of Bahia, Goiás, and Tocantins. Their divergence to date has generated the formation of two genotypes evolving independently in regions that until the present study had little geographic overlap.

Fatores associados à infecção pelo vírus da estomatite vesicular em equídeos no estado do Rio Grande do Norte, Brasil / Factors associated with infection by the vesicular stomatitis virus in equines in the state of Rio Grande do Norte, Brazil

Objetivou-se investigar a presença do Vírus da Estomatite Vesicular (VEV) e seus fatores de risco para ocorrência e disseminação da enfermidade em equídeos das mesorregiões Leste e Oeste Potiguar do estado do Rio Grande do Norte, Brasil. Foram analisadas pela técnica de virusneutralização, 809 amostras sanguíneas de equídeos provenientes de noventa propriedades de dezesseis municípios Potiguares durante os meses de julho de 2018 a fevereiro de 2019. Os fatores de riscos associados ao VEV foram avaliados por meio de questionário epidemiológico e os dados submetidos a análise estatística no programa IBM SPSS Statistics versão 21.0 com nível de confiança de 95%. Posteriormente, todas as variáveis estatisticamente significantes foram submetidas a análise de regressão de Poisson. A soroprevalência de anticorpos anti-VEV foi 24,6% (199/809), sendo 3,2% (13/402) de soropositivos na mesorregião Leste e 45,7% (186/407) na do Oeste Potiguar. Com relação aos sorotipos, observou-se uma prevalência de 3,8% (31/809) e 24,5% (198/809) para Indiana 2 e 3 respectivamente, com 15,1% (30/198) de coinfecção. Equídeos criados na mesorregião Oeste, em propriedades que não realizam quarentena e onde os animais enfermos são mantidos no rebanho, foram consideradas fatores predisponentes a infecção pelo VEV. Esses resultados demonstram a circulação do VEV em equídeos no Rio Grande do Norte, com destaque ao Oeste Potiguar, e sendo necessário a aplicação de medidas sanitárias que impeçam introdução e disseminação do vírus ente as espécies susceptíveis, principalmente em condições climáticas favoráveis para a sua manutenção, no ambiente de criação e pastagens.

This study aimed to investigate the presence of Vesicular stomatitis virus (VSV) and risk factors for its occurrence and dissemination in equines from the Eastern and Western mesoregions of the state of Rio Grande do Norte, Brazil. Blood samples were analyzed, by Serum Virus Neutralization Assay, from 809 animals belonging to 90 properties distributed in sixteen municipalities from July 2018 to February 2019. Risk factors were assessed using an epidemiological questionnaire. Data were submitted to statistical analysis using the software IBM SPSS Statistics, version 21.0 with a 95% confidence level. Also, all statistically significant variables were subjected to Poisson regression analysis. The occurrence of anti-VSV antibodies was 24.6% (199/809) with 3.2% (13/402) and 45.7% (186/407) of seropositivity in the Western and Eastern mesoregion, respectively. Regarding serotypes, there were an occurrence of 3.8% (31/809) and 24.5% (198/809) for Indiana 2 and 3, respectively, and 15.1% (30/198) of co-infection for both. Equines kept of the Western mesoregion, on properties that do not quarantine, and where sick animals are kept in the herd, were considered risk factors for LVV infection. These results demonstrate the presence of VSV in equines in Rio Grande do Norte, with emphasis on Oeste Potiguar, and that sanitary measures must be adopted to prevent the introduction and viral spreading among susceptible species, especially due to favorable climatic conditions for the maintenance of VSV in the breeding and pasture environment.

Vesicular stomatitis due to Indiana III (Alagoas/VSIV-3) is endemic in Brazilian state of Ceará / Estomatite vesicular causada pelo subtipo Indiana III (Alagoas/VVI-3) é endêmica no estado do Ceará, Brasil

Although Northeast Brazil is considered free of foot and mouth disease (FMD) with vaccination, several economic and health damages are still recorded due to the occurrence of vesicular syndromes that can be evaluated, such as Vesicular Stomatitis (VS). Therefore, this study aimed to confirm the occurrence of this disease and to determine the predominant viral serotype in suspected cases notified to the Official Veterinary Service of Ceará in 2013 performing official diagnostic protocols recommended by the World Organization for Animal Health. After clinical and epidemiological investigation in 46 farms, 32 probable cases of VS were considered with 78 sampled animals, 65 bovines and 13 equines. Serum (54) and epithelium (24) samples were collected. Six (14.6%) of 41 bovines and 8 (61.5%) of 13 equines described seroconversion to Indiana Vesiculovirus (IVV) by viral neutralization. The IVV was detected in 15 (62.5%) of 24 bovines epithelia using the indirect sandwich ELISA. Finally, positive epithelium underwent complement fixation test viral subtyping that identified the occurrence of Indiana III serotype (Alagoas/IVV-3) in 11 (73.3%) of 15 previous positives cattle. These were the first confirmed cases of VS in Ceará with an official diagnosis of IVV-3, confirming the endemic character attributed to the state through previous unofficial serological surveys. The presence of VS is a continuing diagnostic challenge, given the risk of possible incursions of FMD. Vesicular stomatitis is recurrent and is a worrying in this area free of foot and mouth disease with vaccination that bring damage to producers and a maximum alert to the Sanitary Defense Organs in the face of a probable case of vesicular syndrome.(AU)

Embora o Nordeste do Brasil seja considerado livre de Febre Aftosa (FA) com a vacinacao, ainda sao registrados varios prejuízos econômicos e sanitários devido a ocorrencia de sindromes vesiculares que precisam ser adequadamente avaliadas, como Estomatite Vesicular (EV). Portanto, este estudo teve como objetivo confirmar a ocorrencia desta doenca e determinar o sorotipo viral predominante em casos suspeitos notificados ao Servico Veterinario Oficial do Ceara no ano de 2013 realizando protocolos oficiais de diagnóstico recomendados pela Organizacao Mundial de Saude Animal. Após investigação clínica e epidemiológica em 46 propriedades rurais, foram considerados 32 casos prováveis de propriedade foco de EV com 78 animais amostrados, sendo 65 bovinos e 13 equídeos. Amostras de soro (54) e epitelio (24) foram coletadas. Analises sorologicas de 6 (14,6%) de 41 bovinos e 8 (61,5%) de 13 equídeos apresentaram soroconversao ao Vesiculovirus Indiana (VVI) por neutralizacao viral. O VVI foi detectado em 15 (62,5%) de 24 epitélios bovinos usando ELISA indireto sanduiche. Por fim, amostras de epitélio positivas foram submetidas a subtipagem viral por fixacao do complemento que identificou a ocorrência do sorotipo Indiana III (Alagoas/VVI-3) em 11 (73,3%) de bovinos. Estes foram os primeiros casos confirmados de EV no estado do Ceara com diagnostico oficial de VVI-3 confirmando o carater endemico atribuido ao Estado por meio de levantamentos sorologicos nao oficiais anteriores. A presença de EV é um desafio diagnóstico contínuo, dado o risco de possíveis incursões de FA. A Estomatite Vesicular é recorrente e preocupante nesta área livre de FA com vacinação pois, além de prejuízos aos produtores, traz um alerta máximo aos Órgãos de Defesa Sanitária diante de um caso provável de síndrome vesicular.(AU)

Epidemiological situation of vesicular stomatitis virus infection in cattle in the state of Paraíba, semiarid region of Brazil.

The aim of this survey was to estimate the apparent herd-level and animal-level prevalences, as well as to identify risk factors and spatial clustering of vesicular stomatitis virus (VSV) positive herds in the state of Paraíba, semiarid of Brazil. The state was divided into three sampling strata: Sertão, Borborema and Zona da Mata/Agreste. For each sampling stratum, herd-level and animal-level prevalences were estimated by a two-stage sampling survey. First, a pre-established number of herds (primary sampling units) were randomly selected; second, within each herd, a pre-established number of cows aged ≥ 24 months were systematically selected (secondary sampling units). In total, 2279 animals were sampled from 468 herds. Serum samples were submitted to virus neutralization (VN) test for detection of antibodies to VSV using three viral strains: VSIV-3 2013SaoBento/Paraiba E, strain Indiana (VSIV-1) and VSNJV. A herd was considered positive for VSV if it included at least one positive animal in herds of up to 10 females, two positive animals in herds of 11-99 females, and three positive in herds with more than 99 females. The spatial clustering was assessed using the Cuzick-Edwards' k-nearest neighbor method and spatial scan statistics. The apparent herd-level prevalence in the state of Paraíba was 38.5% (95% CI = 35.5-41.6%), 80.6% (95% CI = 73.6-86.2%) in the region of Sertão, 7.0% (95% CI = 3.9-12.2%) in Borborema, and 2.6% (95% CI = 1.0-6.7%) in Agreste/Zona da Mata. The apparent animal-level prevalence was 26.2% (95% CI = 20.6-32.8%) in the state of Paraíba, 48.2% (95% CI = 41.5-54.9%) in Sertão, 6.3% (95% CI = 2.7-14%) in Borborema, and 3.2% 1.9% (95% CI = 0.4-8.4%) in Agreste/Zona da Mata. The risk factors identified were as follows: mixed production (milk/beef) (OR = 4.54), herd size > 23 animals (OR = 3.57), presence of cervids (OR = 15.24), rental of pastures (OR = 3.02), sharing of water sources (OR = 2.57) and presence of horses (OR = 1.69). Two significant clusters of positive herds were detected: the primary cluster covered the Sertão region and the secondary cluster covered part of the Sertão and Borborema regions. Our results suggest high VSV circulation in the bovine population of the state of Paraíba, semiarid region of Brazil, mainly in the Sertão mesoregion, and based on risk factor analysis it was possible to identify important associations that deserve more investigation on causal factors.

The small non-coding RNA response to virus infection in the Leishmania vector Lutzomyia longipalpis.

Sandflies are well known vectors for Leishmania but also transmit a number of arthropod-borne viruses (arboviruses). Few studies have addressed the interaction between sandflies and arboviruses. RNA interference (RNAi) mechanisms utilize small non-coding RNAs to regulate different aspects of host-pathogen interactions. The small interfering RNA (siRNA) pathway is a broad antiviral mechanism in insects. In addition, at least in mosquitoes, another RNAi mechanism mediated by PIWI interacting RNAs (piRNAs) is activated by viral infection. Finally, endogenous microRNAs (miRNA) may also regulate host immune responses. Here, we analyzed the small non-coding RNA response to Vesicular stomatitis virus (VSV) infection in the sandfly Lutzoymia longipalpis. We detected abundant production of virus-derived siRNAs after VSV infection in adult sandflies. However, there was no production of virus-derived piRNAs and only mild changes in the expression of vector miRNAs in response to infection. We also observed abundant production of virus-derived siRNAs against two other viruses in Lutzomyia Lulo cells. Together, our results suggest that the siRNA but not the piRNA pathway mediates an antiviral response in sandflies. In agreement with this hypothesis, pre-treatment of cells with dsRNA against VSV was able to inhibit viral replication while knock-down of the central siRNA component, Argonaute-2, led to increased virus levels. Our work begins to elucidate the role of RNAi mechanisms in the interaction between L. longipalpis and viruses and should also open the way for studies with other sandfly-borne pathogens.

Dengue virus induced changes in Ca2+ homeostasis in human hepatic cells that favor the viral replicative cycle.

The role of Ca2+ during dengue virus (DENV) replication is unknown; thus, changes in Ca2+ homeostasis in DENV infected human hepatic HepG2 and Huh-7 cells were analyzed. Infected HepG2 cells, but not Huh-7 cells, showed a significant increase in plasma membrane permeability to Ca2+, while both cell lines showed marked reduced levels of Ca2+ stored in the endoplasmic reticulum. While the expression levels of STIM1 and ORAI1 showed no changes, STIM1 and ORAI1 were shown to co-localized in infected cells, indicating activation of the store-operated Ca2+ entry (SOCE) pathway. Finally, manipulation in the infected cells of the intra and extracellular Ca2+ levels by chelators (BAPTA-AM and EGTA), SOC inhibitor (SKF96365), IP3 Receptor antagonist (2APB) or increase of extracellular [Ca2+], significantly reduced DENV yield, but not vesicular stomatitis virus yield, used as a control. These results show that DENV infection alters cell Ca2+ homeostasis and that such changes favor viral replication.

Investigação epidemiológica de Estomatite vesicular por achados clínicos em bovinos e equinos no Estado do Maranhão / Stomatitis vesicular in cattle and horse in the Maranhão state

A Estomatite Vesicular (EV) é uma doença infecciosa que acomete equinos, bovinos, suínos, mamíferos silvestres e humanos. Por apresentar sinais clínicos semelhantes a outras doenças vesiculares, principalmente, febre aftosa, sua presença em determinadas regiões pode interferir no intercâmbio comercial internacional dos animais, seus produtos e subprodutos. Apesar de sua importância, a epidemiologia e a manutenção do vírus no ambiente não estão totalmente esclarecidas dificultando a aplicação de medidas de controle efetivas. A doença já foi diagnosticada em todas as regiões brasileiras. Bovinos com sialorréia, perda do epitélio lingual, lesões abertas com bordas amareladas nas gengivas, lábios, língua e mucosa oral e equinos com sialorréia e lesões abertas na mucosa oral e lábios foram observados e notificados ao Serviço Veterinário Oficial do Estado do Maranhão, Agência Estadual de Defesa Agropecuária do Maranhão (AGRD/MA). Amostras de soro de equinos e bovinos com sintomas de EV foram coletadas para investigação por ELISA e por neutralização viral, além do diagnóstico diferencial para Febre Aftosa (FA). Fragmentos epiteliais de bovinos com lesões na língua foram coletados para identificação molecular do agente. Todos os animais foram negativos para FA. Todos os bovinos e equinos foram reativos para EV nos testes sorológicos. A partir dos fragmentos epiteliais de bovinos enviados ao Instituto Biológico de São Paulo para PCR, foi possível caracterizar o agente como VesiculovirusIndiana III (Alagoas/VSAV).(AU)

Vesicular stomatitis (VS) is an infectious viral disease that affects bovines, equines, swine, wild animals and humans. As it is indistinguishable from other vesicular diseases, mainly Foot and Mouth Disease (FMD), it causes restrictions in commercial livestock trade at national and international levels and also significant economic losses. As the epidemiology and maintenance of VS virus in nature are not clearly understood it is difficult to take effective control measures. VS was diagnosed in some regions of Brazil, such as Minas Gerais, Santa Catarina, São Paulo and Alagoas. Cattle and horses with clinical symptoms of drooling, shedding of the lingual epithelium, presence of vesicles on the oral mucosa were observed and reported to the National Animal Health Office health of Maranhão State, Brazil. Samples of serum of these animals were collected and sent to Laboratório Nacional de Agropecuaria for ELISA and virus neutralization and differential diagnosis for Foot and Mouth Disease (FMD). The results of ELISA confirmed the VS. In the differential diagnosis, the results were negative for FMD. Samples of bovine epithelial tissue for VS by PCR confirmation of diagnosis were collected and sent to Biological Institute of São Paulo. Molecular results confirmed the VesiculovirusIndiana III (Alagoas/VSAV) infection.(AU)

Investigação epidemiológica de estomatite vesicular por achados clínicos em bovinos e equinos no Estado do Maranhão / Stomatitis vesicular in cattle and horse in the Maranhão state

A Estomatite Vesicular (EV) é uma doença infecciosa que acomete equinos, bovinos, suínos, mamíferos silvestres e humanos. Por apresentar sinais clínicos semelhantes a outras doenças vesiculares, principalmente, febre aftosa, sua presença em determinadas regiões pode interferir no intercâmbio comercial internacional dos animais, seus produtos e subprodutos. Apesar de sua importância, a epidemiologia e a manutenção do vírus no ambiente não estão totalmente esclarecidas dificultando a aplicação de medidas de controle efetivas. A doença já foi diagnosticada em todas as regiões brasileiras. Bovinos com sialorréia, perda do epitélio lingual, lesões abertas com bordas amareladas nas gengivas, lábios, língua e mucosa oral e equinos com sialorréia e lesões abertas na mucosa oral e lábios foram observados e notificados ao Serviço Veterinário Oficial do Estado do Maranhão, Agência Estadual de Defesa Agropecuária do Maranhão (AGRD/MA). Amostras de soro de equinos e bovinos com sintomas de EV foram coletadas para investigação por ELISA e por neutralização viral, além do diagnóstico diferencial para Febre Aftosa (FA). Fragmentos epiteliais de bovinos com lesões na língua foram coletados para identificação molecular do agente. Todos os animais foram negativos para FA. Todos os bovinos e equinos foram reativos para EV nos testes sorológicos. A partir dos fragmentos epiteliais de bovinos enviados ao Instituto Biológico de São Paulo para PCR, foi possível caracterizar o agente como VesiculovirusIndiana III (Alagoas/VSAV).

Vesicular stomatitis (VS) is an infectious viral disease that affects bovines, equines, swine, wild animals and humans. As it is indistinguishable from other vesicular diseases, mainly Foot and Mouth Disease (FMD), it causes restrictions in commercial livestock trade at national and international levels and also significant economic losses. As the epidemiology and maintenance of VS virus in nature are not clearly understood it is difficult to take effective control measures. VS was diagnosed in some regions of Brazil, such as Minas Gerais, Santa Catarina, São Paulo and Alagoas. Cattle and horses with clinical symptoms of drooling, shedding of the lingual epithelium, presence of vesicles on the oral mucosa were observed and reported to the National Animal Health Office health of Maranhão State, Brazil. Samples of serum of these animals were collected and sent to Laboratório Nacional de Agropecuaria for ELISA and virus neutralization and differential diagnosis for Foot and Mouth Disease (FMD). The results of ELISA confirmed the VS. In the differential diagnosis, the results were negative for FMD. Samples of bovine epithelial tissue for VS by PCR confirmation of diagnosis were collected and sent to Biological Institute of São Paulo. Molecular results confirmed the VesiculovirusIndiana III (Alagoas/VSAV) infection.

Outbreaks of Vesicular stomatitis Alagoas virus in horses and cattle in northeastern Brazil.

The current article describes outbreaks of vesicular stomatitis (VS) in horses and cattle in Paraiba and Rio Grande do Norte states, northeastern Brazil, between June and August 2013. The reported cases affected 15-20 horses and 6 cattle distributed over 6 small farms in 4 municipalities, but additional data indicated the involvement of a large number of animals on several farms. The disease was characterized by blisters; eruptive lesions in coronary bands, lips, mouth, and muzzle; salivation; claudication and loss of condition. Swollen lower limbs and lips, and ulcerated and erosive areas in the lips and muzzle were observed in some horses. A necrotizing vesiculopustular dermatitis and stomatitis was observed histologically. Vesicular stomatitis virus was isolated from the vesicular fluid of a horse lesion and shown to be serologically related to the VS Indiana serogroup (VSIV) by virus neutralization. Convalescent sera of affected horses and cattle, and from healthy contacts, harbored high levels of neutralizing antibodies against the isolated virus (named VSIV-3 2013SaoBento/ParaibaE). Genomic sequences of VSIV subtype 3 (Vesicular stomatitis Alagoas virus) were amplified by reverse transcription polymerase chain reaction out of clinical specimens from a cow and a horse from different farms. Nucleotide sequencing and phylogenetic analysis of the phosphoprotein gene indicated that the 2 isolates were derived from the same virus and clustered them in VSIV-3, along with VS viruses identified in southeastern and northeastern Brazil in the last decades. Thus, the present report demonstrates the circulation of VSIV-3 in northeastern Brazil and urges for more effective diagnosis and surveillance.

Vesicular stomatitis virus glycoprotein- and Venezuelan equine encephalitis virus-derived glycoprotein-pseudotyped lentivirus vectors differentially transduce corneal endothelium, trabecular meshwork, and human photoreceptors.

The ability to deliver a large transgene efficiently to photoreceptors using viral vectors remains problematic and yet is critical for the future therapy of inherited retinal diseases such as Stargardt's and Usher's 1B. Herein, we examine the ocular tropism of a HIV-1-based lentivirus vector pseudotyped with Venezuelan equine encephalitis virus-derived glycoprotein (VEEV-G) after intraocular delivery to the posterior and anterior chambers of C57BL/6 wild-type mice. Reporter gene (EGFP) expression was evaluated using in vivo fluorescence imaging followed by postmortem immunohistochemistry and retinal function assessed by electroretinography. Intracameral administration of VEEV-G and vesicular stomatitis virus glycoprotein (VSV-G)-pseudotyped vectors resulted in robust transgene expression in the corneal endothelium and trabecular meshwork. After subretinal administration, onset of transgene expression was observed in the retinal pigment epithelium (RPE) 1 day postinjection with both VEEV-G and control VSV-G pseudotypes, but no significant photoreceptor transduction was apparent. Substantial degeneration of the outer nuclear layer was observed with VEEV-G-pseudotyped vector, which corresponded to ablation of retinal function. Subretinal administration of VSV-G was observed to result in significant suppression of electrophysiological function compared with buffer-injected and uninjected control eyes. Suppression of the c-wave amplitude, in addition to reduced RPE65 expression, indicated potential RPE dysfunction. Ex vivo tropism of VSV-G was assessed using organotypic culture of explanted retina harvested from wild-type mice and human patients undergoing retinal detachment surgery to examine the prevention of transduction by physical barriers and species differences in tropism.

WISH cell line: from the antiviral system to a novel reporter gene assay to test the potency of human IFN-α and IFN-ß.

Interferons (IFNs) are potent biologically active proteins that are widely used as biopharmaceuticals, so their potency must be correctly identified. Usually, the biological activity is quantified by a bioassay based on its capacity to induce an antiviral state in target cells, but this type of assays is subject to virus manipulation-related issues and they show considerable intra- and inter-assay variability. In this work, we generated a reporter gene assay (RGA) supported on the WISH-Mx/eGFP reporter cell line to determine human type I IFN activity. WISH cells were stably transfected with the enhanced green fluorescent protein (eGFP) gene under the control of type I IFN-inducible Mx2 promoter. This system implies the use of a standardized cell line for human IFN-potency analysis such as WISH cells and the simultaneous use of the sensitive reporter gene eGFP, having also several advantages when compared to antiviral activity assays and other RGAs: it can determine the potency of hIFN-α and hIFN-ß using only one cell line showing the highest expression of eGFP after 28h and being only observed in cells treated with type I IFNs due to the specificity of the Mx promoter. It is a sensitive assay and it represents a safe alternative when compared with the conventional antiviral tests. The cell line showed the same sensitivity along 57 generations, allowing its use during two months of successive culture. The inter- and intra-assay coefficients of variation were lower than 20%, demonstrating its reproducibility. In addition, this reporter cell line can be used for the conventional antiviral assay, either for hIFN-α or hIFN-ß. In conclusion, we have developed an alternative reporter system for the analysis of type I IFNs, in which its performance make it a suitable candidate to replace or complement conventional bioassays that are currently employed to measure IFN potency.

Improvement and optimization of a multiplex real-time reverse transcription polymerase chain reaction assay for the detection and typing of Vesicular stomatitis virus.

An improvement to a previously reported real-time reverse transcription polymerase chain reaction (real-time RT-PCR) assay for the detection of Vesicular stomatitis virus (VSV) is described. Results indicate that the new assay is capable of detecting a panel of genetically representative strains of VSV present in North, Central, and South America. The assay is specific for VSV and allows for simultaneous differentiation between Vesicular stomatitis Indiana virus and Vesicular stomatitis New Jersey virus. This real-time RT-PCR is able to detect current circulating strains of VSV and can be used for rapid diagnosis of VSV and differentiation of VSV from other vesicular diseases, such as foot-and-mouth disease.

Viral inactivation based on inhibition of membrane fusion: understanding the role of histidine protonation to develop new viral vaccines.

Membrane fusion is an essential step in the entry of enveloped viruses into their host cells, what makes it a potentially attractive target for viral inactivation approaches. Fusion is mediated by viral surface glycoproteins that undergo conformational changes triggered by interaction with specific cellular receptors or by the exposition to low pH of endossomal medium. Here we review how several studies on the structural rearrangements of vesicular stomatitis virus (VSV) glycoprotein G during cellular recognition and fusion led us to propose a crucial role of the protonation of His residues for G protein activity. Moreover, we demonstrated that using diethylpyrocarbonate (DEPC), a histidine-modifying compound, it was possible to abolish viral infectivity and pathogenicity in mice, and to elicit neutralizing antibodies that confer protection in these animals against challenge using lethal doses of the virus. The presence of conserved His residues in a wide range of viral fusion proteins and the use of DEPC as a more general means for vaccine development will be also discussed.

Suspension-Vero cell cultures as a platform for viral vaccine production.

Since Vero cells are currently considered as an acceptable cell substrate to produce a wide range of viruses, we developed a virus production platform using Vero cells adapted to grow in suspension in serum-free media. After adapting anchorage-dependent Vero cells to grow as a free-cell suspension, vesicular stomatitis virus, herpes simplex virus 1 and polio virus 1 production rates were evaluated in batch cultures using spinner flasks and perfused cultures in a bioreactor. The achieved results constitute valuable information for the development of a low-cost high-productivity process using a suspension culture of Vero cells to produce viral vaccines.

Field evaluation of a multiplex real-time reverse transcription polymerase chain reaction assay for detection of Vesicular stomatitis virus.

Sporadic outbreaks of vesicular stomatitis (VS) in the United States result in significant economic losses for the U.S. livestock industries because VS is a reportable disease that clinically mimics foot-and-mouth disease. Rapid and accurate differentiation of these 2 diseases is critical because their consequences and control strategies differ radically. The objective of the current study was to field validate a 1-tube multiplexed real-time reverse transcription polymerase chain reaction (real-time RT-PCR) assay for the rapid detection of Vesicular stomatitis New Jersey virus and Vesicular stomatitis Indiana virus strains occurring in Mexico and North and Central America. A comprehensive collection of 622 vesicular lesion samples obtained from cattle, horses, and swine from throughout Mexico and Central America was tested by the real-time RT-PCR assay and virus isolation. Overall, clinical sensitivity and specificity of the real-time RT-PCR were 83% and 99%, respectively. Interestingly, VS virus isolates originating from a specific region of Costa Rica were not detected by real-time RT-PCR. Sequence comparisons of these viruses with the real-time RT-PCR probe and primers showed mismatches in the probe and forward and reverse primer regions. Additional lineage-specific primers and a probe corrected the lack of detection of the missing genetic lineage. Thus, this assay reliably identified existing Mexican and Central American VS viruses and proved readily adaptable as new VS viruses were encountered. An important secondary result of this research was the collection of hundreds of new VS virus isolates that provide a foundation from which many additional studies can arise.

A minor beta-structured conformation is the active state of a fusion peptide of vesicular stomatitis virus glycoprotein.

Entry of enveloped animal viruses into their host cells always depends on a step of membrane fusion triggered by conformational changes in viral envelope glycoproteins. Vesicular stomatitis virus (VSV) infection is mediated by virus spike glycoprotein G, which induces membrane fusion at the acidic environment of the endosomal compartment. In a previous work, we identified a specific sequence in the VSV G protein, comprising the residues 145-164, directly involved in membrane interaction and fusion. In the present work we studied the interaction of pep[145-164] with membranes using NMR to solve the structure of the peptide in two membrane-mimetic systems: SDS micelles and liposomes composed of phosphatidylcholine and phosphatidylserine (PC:PS vesicles). The presence of medium-range NOEs showed that the peptide has a tendency to form N- and C-terminal helical segments in the presence of SDS micelles. Analysis of the chemical shift index indicated helix-coil equilibrium for the C-terminal helix under all conditions studied. At pH 7.0, the N-terminal helix also displayed a helix-coil equilibrium when pep[145-164] was free in solution or in the presence of PC:PS. Remarkably, at the fusogenic pH, the region of the N-terminal helix in the presence of SDS or PC:PS presented a third conformational species that was in equilibrium with the helix and random coil. The N-terminal helix content decreases pH and the minor beta-structured conformation becomes more prevalent at the fusogenic pH. These data point to a beta-conformation as the fusogenic active structure-which is in agreement with the X-ray structure, which shows a beta-hairpin for the region corresponding to pep[145-164].

New chemical method of viral inactivation for vaccine development based on membrane fusion inhibition.

Membrane fusion is an essential step in the entry of enveloped viruses into their host cells. This process is triggered by conformational changes in viral surface glycoproteins. We have demonstrated previously that modification of vesicular stomatitis virus (VSV) with diethylpyrocarbonate (DEPC) abolished the conformational changes on VSV glycoprotein and the fusion reaction induced by the virus. Moreover, we observed that viral treatment with DEPC inactivates the virus, preserving the conformational integrity of its surface proteins. In the present work, we evaluated the potential use of DEPC as a viral inactivating chemical agent for the development of useful vaccines. Pathogenicity and viral replication in Balb/c mice were abolished by viral treatment with 0.5mM DEPC. In addition, antibodies elicited in mice after intraperitoneal immunization with DEPC-inactivated VSV mixed with adjuvants were able to recognize and neutralize the native virus and efficiently protected animals against the challenge with lethal doses of VSV. These results together suggest that viral inactivation with DEPC seems to be a suitable method for the development of safe vaccines.

Rapid diagnosis of vesicular stomatitis virus in Ecuador by the use of polymerase chain reaction

Vesicular Stomatitis (VS) is a viral disease that has a great impact in animal health, as infected animals present marked decrease in meat and milk production. Its presence is a limiting factor for international animal trade. Besides the damage in the livestock productivity, such disease assumes an important role in animal health programs since it is clinically indistinguishable from Foot-and-Mouth Disease. The diagnosis of the VS has been made, mainly, through Complement Fixation, ELISA and Virus Neutralization tests, assays that allow not only for viral detection but also for differentiation of the two serotypes described for Vesicular Stomatitis Virus (VSV): New Jersey (NJ) and Indiana (Ind). In this work, a molecular diagnostic approach, the polymerase chain reaction performed after reverse transcription (RT - PCR), based on the specific partial amplification of NS gene of VSV was used, as an alternative method for the detection of the virus. A total of 10 VSV reference samples and 12 specimens collected from animals with clinical signs of vesicular disease obtained from field episodes in Ecuador were tested. The method allowed for the specific partial amplification of the region coding for protein P, both for VSV serotypes New Jersey (642 bp) and Indiana 1 (614 bp). The results were compatible with data obtained by Complement Fixation test and the identity of the amplified products was confirmed by nucleotide sequencing.

A Estomatite Vesicular (EV) é uma enfermidade viral de grande impacto na saúde animal. O animal enfermo apresenta queda na produtividade em rebanho de carne e na produção leiteira, sendo um fator limitante para o comércio internacional de animais. Além dos danos à produtividade essa enfermidade assume importante papel nos programas de saúde animal por ser indistinguível clinicamente da Febre Aftosa. As técnicas para o diagnóstico da EV são, principalmente, a Fixação de Complemento, a ELISA e a Virusneutralização, testes que permitem a detecção viral e a diferenciação dos dois sorotipos descritos para o vírus da Estomatite Vesicular (VEV): New Jersey (NJ) e Indiana (Ind). Neste trabalho a metodologia molecular da reação em cadeia da polimerase após transcrição reversa (RT - PCR) baseada na amplificação parcial específica do gene NS do VEV foi utilizada como um método alternativo para a detecção do vírus. Um total de 10 amostras de referência do VEV e 12 espécimes coletados de animais com sinais clínicos de enfermidade vesicular obtidas de episódios de campo em Equador foi testado. O método permitiu a amplificação parcial da região que codifica para proteína P, tanto para NJ (642 pb) quanto para Ind (614 pb). Os resultados foram concordantes com os dados obtidos por Fixação de Complemento e a identidade dos produtos amplificados foi confirmada por meio de seqüenciamento nucleotídico.

Antiviral effect of a synthetic brassinosteroid on the replication of vesicular stomatitis virus in Vero cells.

The antiviral mode of action of the synthetic brassinosteroid (22S,23S)-3beta-bromo-5alpha,22,23-trihydroxystigmastan-6-one (6b) against replication of vesicular stomatitis virus (VSV) in Vero cells was investigated. Time-related experiments showed that 6b mainly affects a late event of the virus growth cycle. Virus adsorption, internalisation and early RNA synthesis are not the target of the inhibitory action. Results obtained indicate that the antiviral compound adversely affects virus protein synthesis and viral mature particle formation.

Inactivation of vesicular stomatitis virus through inhibition of membrane fusion by chemical modification of the viral glycoprotein.

Membrane fusion is an essential step in the entry of enveloped viruses into their host cells triggered by conformational changes in viral glycoproteins. We have demonstrated previously that modification of vesicular stomatitis virus (VSV) with diethylpyrocarbonate (DEPC) abolished conformational changes on VSV glycoprotein and the fusion reaction catalyzed by the virus. In the present study, we evaluated whether treatment with DEPC was able to inactivate the virus. Infectivity and viral replication were abolished by viral treatment with 0.5mM DEPC. Mortality profile and inflammatory response in the central nervous system indicated that G protein modification with DEPC eliminates the ability of the virus to cause disease. In addition, DEPC treatment did not alter the conformational integrity of surface proteins of inactivated VSV as demonstrated by transmission electron microscopy and competitive ELISA. Taken together, our results suggest a potential use of histidine (His) modification to the development of a new process of viral inactivation based on fusion inhibition.