Biological Characterization of Yellow Fever Viruses Isolated From Non-human Primates in Brazil With Distinct Genomic Landscapes.

Since the beginning of the XXI Century, the yellow fever virus (YFV) has been cyclically spreading from the Amazon basin to Brazil's South and Southeast regions, culminating in an unprecedented outbreak that started in 2016. In this work, we studied four YFV isolated from non-human primates obtained during outbreaks in the states of Rio Grande do Sul in 2008 (PR4408), Goiás (GO05), and Espírito Santo (ES-504) in 2017, and Rio de Janeiro (RJ 155) in 2019. These isolates have genomic differences mainly distributed in non-structural proteins. We compared the isolates' rates of infection in mammal and mosquito cells and neurovirulence in adult mice. RJ 155 and PR4408 YFV isolates exhibited higher infectivity in mammalian cells and neurovirulence in mice. In mosquito Aag2 cells, GO05 and PR4408 displayed the lowest proliferation rates. These results suggest that RJ 155 and PR4408 YFV isolates carry some genomic markers that increase infectivity in mammal hosts. From this characterization, it is possible to contribute to discovering new molecular markers for the virulence of YFV.

Dengue virus 3 genotype I shows natural changes in heparan sulphate binding sites, cell interactions, and neurovirulence in a mouse model.

Dengue virus (DENV) is the most prevalent pathogen of the Flaviviridae family. Due to the considerable increase in DENV incidence and spread, symptoms such as CNS involvement have increased. Heparan sulphate (HS) was the first molecule identified as an adhesion factor for DENV in mammalian cells. Viral phenotypes with different HS interactions are associated with various clinical symptoms, including neurological alterations. Here, using in silico analyses, in vitro studies, and the in vivo mouse model, we characterized two natural circulating DENV3 genotype I (GI) lineage 1 (L1) in Brazil-DENV3 MG-20 (from Minas Gerais) and DENV3 PV_BR (from Rondônia) that present divergent neurovirulent profiles and sensitivity to sulphated molecules. We identified substitutions at the viral envelope (E) in positions 62 and 123 as likely responsible for the differences in neurovirulence. The E62K and E123Q substitutions in DENV3 MG-20 and DENV3 PV_BR, respectively, greatly influenced in silico electrostatic density and heparin docking results. In vivo, mice inoculated with DENV3 MG-20 died, but not those infected with DENV3 PV_BR. The clinical symptoms, such as paralysis of the lower limbs and meningoencephalitis, and histopathology, also differed between the inoculated groups. In vitro heparin and heparinases assays further demonstrated the biological impact of these substitutions. Other characteristics that have been previously associated with alterations in cell tropism and neurovirulence, such as changes in the size of lysis plaques and differences in cytopathic effects in glioblastoma cells, were also observed.

Pathogenesis of Equid Alphaherpesvirus 1 Infection in the Central Nervous System of Mice.

Equid alphaherpesvirus 1 (EHV-1) causes myeloencephalopathy in horses and occasionally in non-equid species. Although mouse models have been developed to understand EHV-1 pathogenesis, few EHV-1 strains have been identified as highly neurovirulent to mice. The aim of this study was to evaluate the pathogenesis of 2 neurovirulent EHV-1 strains in mice, and to characterize the inflammatory cells and expression of chemokines and the apoptosis marker caspase-3 in the brain of infected mice. C57BL/6J mice were inoculated intranasally with EHV-1 strains A4/72 or A9/92 and evaluated on 1, 2, and 3 days post inoculation (DPI). EHV-1-infected mice showed severe neurological signs at 3 DPI. Ultrastructural analysis revealed numerous viral nucleocapsids and fewer enveloped virions within degenerated and necrotic neurons and in the surrounding neuropil. Histologically, at 3 DPI, there was severe diffuse neuronal degeneration and liquefactive necrosis, prominent microgliosis, and perivascular cuffing composed of CD3+ cells (T cells) and Iba-1+ cells (macrophages), mainly in the olfactory bulb and ventral portions of the brain. In these areas, moderate numbers of neuroglial cells expressed CCL5 and CCL2 chemokines. Numerous neurons, including those in less affected areas, were immunolabeled for cleaved caspase-3. In conclusion, neurovirulent EHV-1 strains induced a fulminant necrotizing lymphohistiocytic meningoencephalitis in mice, with microgliosis and expression of chemokines and caspase-3. This model will be useful for understanding the mechanisms underlying the extensive neuropathology induced by these viral infections.

Next generation live-attenuated yellow fever vaccine candidate: Safety and immuno-efficacy in small animal models.

Yellow fever (YF) remains a threat to human health in tropical regions of Africa and South America. Live-attenuated YF-17D vaccines have proven to be safe and effective in protecting travellers and populations in endemic regions against YF, despite very rare severe reactions following vaccination - YF vaccine-associated viscerotropic disease (YEL-AVD) and neurological disease (YEL-AND). We describe the generation and selection of a live-attenuated YF-17D vaccine candidate and present its preclinical profile. Initially, 24 YF-17D vaccine candidate sub-strains from the Stamaril® and YF-VAX® lineage were created through transfection of viral genomic RNA into Vero cells cultured in serum-free media to produce seed lots. The clone with the 'optimal' preclinical profile, i.e. the lowest neurovirulence, neurotropism and viscerotropism, and immunogenicity at least comparable with Stamaril and YF-VAX in relevant animal models, was selected as the vaccine candidate and taken forward for assessment at various production stages. The 'optimal' vaccine candidate was obtained from the YF-VAX lineage (hence named vYF-247) and had five nucleotide differences relative to its parent, with only two changes that resulted in amino acid changes at position 480 of the envelope protein (E) (valine to leucine), and position 65 of the non-structural protein 2A (NS2A) (methionine to valine). vYF-247 was less neurovirulent in mice than Stamaril and YF-VAX irrespective of production stage. Its attenuation profile in terms of neurotropism and viscerotropism was similar to YF-VAX in A129 mice, a 'worst case' animal model lacking type-I IFN receptors required to initiate viral clearance. Thus, vYF-247 would not be expected to have higher rates of YEL-AVD or YEL-AND than Stamaril and YF-VAX. In hamsters, vYF-247 was immunogenic and protected against high viremia and death induced by a lethal challenge with the hamster-adapted Jimenez P10 YF virus strain. Our data suggests that vYF-247 would provide robust protection against YF disease in humans, similar to currently marketed YF vaccines.

Manifestaciones extrapulmonares de la infección por SARS-CoV-2.

The disease caused by a new coronavirus, which started in 2019, was named COVID-19 and declared a pandemic on March 11, 2020 by the World Health Organization. Although it is true that the first reports emphasized the respiratory manifestations of this disease as an initial clinical presentation, little by little cases with different initial manifestations began to appear, involving other systems. In cases where central nervous system involvement was identified, the most frequent findings were dizziness, headache, and alteration of alertness. Regarding the cardiovascular system, elevation of cardiac biomarkers and myocarditis are one of the most frequent findings. The main gastrointestinal symptoms described so far are: anorexia, nausea, vomiting, diarrhea, abdominal pain and/or discomfort. Venous thromboembolism is a frequent complication and a public health problem. Skin manifestations remain a field of investigation. Maculopapular rashes, reticular livedo, acral gangrene, among others, have been identified. Health personnel must be updated on new clinical findings and the forms of presentation of this partially known disease, which will make it possible to make more accurate and timely diagnoses, thus impacting the prognosis of these patients.

La enfermedad causada por un nuevo coronavirus, que inició en 2019, fue denominada COVID-19 y declarada pandemia el 11 de marzo de 2020 por la Organización Mundial de la Salud. Si bien es cierto que los primeros reportes enfatizaron las manifestaciones respiratorias de esta enfermedad como presentación clínica inicial, poco a poco empezaron a aparecer casos con manifestaciones iniciales distintas, involucrando otros sistemas. En los casos en los que se identificó afectación del sistema nervioso central, los hallazgos más frecuentes fueron mareo, cefalea y alteración del estado de alerta. Respecto al sistema cardiovascular, la elevación de biomarcadores cardiacos y la miocarditis son unos de los hallazgos más frecuentes. Los principales síntomas gastrointestinales descritos hasta el momento son anorexia, náuseas, vómitos, diarrea y dolor o disconfort abdominal. La tromboembolia venosa es una complicación frecuente y un problema de salud pública. Las manifestaciones cutáneas siguen siendo un campo de investigación. Se han identificado exantemas maculopapulares, livedo reticular y gangrena acral, entre otros. El personal sanitario debe estar actualizado sobre los nuevos hallazgos clínicos y las formas de presentación de esta enfermedad solo parcialmente conocida, lo que permitirá hacer diagnósticos más precisos y oportunos, y así impactar en el pronóstico de estos enfermos.

Impact of pyriproxyfen on virus behavior: implications for pesticide-induced virulence and mechanism of transmission.

BACKGROUND: More than 3 years since the last Zika virus (ZIKV) outbreak in Brazil, researchers are still deciphering the molecular mechanisms of neurovirulence and vertical transmission, as well as the best way to control spread of ZIKV, a flavivirus. The use of pesticides was the main strategy of mosquito control during the last ZIKV outbreak. METHODS: We used vesicular stomatitis virus (VSV) tagged with green fluorescent protein (GFP) as our prototypical virus to study the impact of insecticide pyriproxyfen (PPF). VZV-GFP infected and uninfected Jurkat, HeLa and trophoblast cells were treated with PPF and compared to untreated cells (control). Cell viability was determined by the MTT assay. Cell morphology, presence of extracellular vesicles (EVs), virus infection/GFP expression as well as active mitochondrial levels/localization were examined by confocal microscopy. RESULTS: PPF, which was used to control mosquito populations in Brazil prior to the ZIKV outbreak, enhances VSV replication and has cell membrane-altering properties in the presence of virus. PPF causes enhanced viral replication and formation of large EVs, loaded with virus as well as mitochondria. Treatment of trophoblasts or HeLa cells with increasing concentrations of PPF does not alter cell viability, however, it proportionately increases Jurkat cell viability. Increasing concentrations of PPF followed by VSV infection does not interfere with HeLa cell viability. Both Jurkats and trophoblasts show proportionately increased cell death with increased concentrations of PPF in the presence of virus. CONCLUSIONS: We hypothesize that PPF disrupts the lipid microenvironment of mammalian cells, thereby interfering with pathways of viral replication. PPF lowers viability of trophoblasts and Jurkats in the presence of VSV, implying that the combination renders immune system impairment in infected individuals as well as enhanced vulnerability of fetuses towards viral vertical transmission. We hypothesize that similar viruses such as ZIKV may be vertically transmitted via EV-to-cell contact when exposed to PPF, thereby bypassing immune detection. The impact of pesticides on viral replication must be fully investigated before large scale use in future outbreaks of mosquito borne viruses.

Equine herpesvirus type 1 induces both neurological and respiratory disease in Syrian hamsters.

The equine herpesvirus type 1 (EHV-1) is an important cause of myeloencephalopathy and respiratory disease in horses. Animal models for EHV-1 infection have been specially developed using mice and Syrian hamsters (Mesocricetus auratus). However, few studies have attempted to evaluate the pathogenesis of EHV-1 infection in the central nervous system (CNS) and respiratory system of hamsters. Therefore, the aim of this study was to evaluate the pathogenesis of four Brazilian EHV-1 strains within the CNS and lungs of Syrian hamsters. Hamsters intranasally infected with A4/72, A9/92, A3/97, and Iso/72 EHV-1 strains developed severe neurological and respiratory signs and died during acute EHV-1 infection within 3 to 5days post-inoculation. However, neurological signs were more severe in A4/72 and A9/92-infected hamsters, whereas respiratory signs were more prominent in A3/97 and Iso/72-infected hamsters. In the latter, lesions in the CNS were predominantly inflammatory, whereas in A4/72 and A9/92-infected hamsters, neuronal and liquefactive necrosis were the predominant lesions. EHV-1 infected hamsters also developed an interstitial pneumonia with infiltration of alveolar septa by macrophages, neutrophils, and lymphocytes, with the exception of A9/92-infected hamsters, which developed severe hemorrhages within the airways. EHV-1 antigens were detected along with CNS and pulmonary lesions. EHV-1 was also recovered from CNS of all infected hamsters, whereas the virus was recovered from the lungs of A4/72, A9/92, and Iso/72-infected hamsters. Brazilian EHV-1 strains caused both severe CNS and respiratory disease in hamsters, thus making this species an interesting model for EHV-1 infection in the CNS and respiratory system.

Differential host gene responses from infection with neurovirulent and partially-neurovirulent strains of Venezuelan equine encephalitis virus.

BACKGROUND: Venezuelan equine encephalitis virus (VEEV) is an alphavirus in the family Togaviridae. VEEV causes a bi-phasic illness in mice where primary replication in lymphoid organs is followed by entry into the central nervous system (CNS). The CNS phase of infection is marked by encephalitis and large scale neuronal death ultimately resulting in death. Molecular determinants of VEEV neurovirulence are not well understood. In this study, host gene expression response to highly neurovirulent VEEV (V3000 strain) infection was compared with that of a partially neurovirulent VEEV (V3034 strain) to identify host factors associated with VEEV neurovirulence. METHODS: Whole genome microarrays were performed to identify the significantly modulated genes. Microarray observations were classified into three categories i.e., genes that were similarly modulated against both V3000 and V3034 infections, and genes that were uniquely modulated in infection with V3034 or V3000. Histologic sections of spleen and brain were evaluated by hematoxylin and eosin stains from all the mice. RESULTS: V3000 infection induced a greater degree of pathology in both the spleen and brain tissue of infected mice compared to V3034 infection. Genes commonly modulated in the spleens after V3000 or V3034 infection were associated with innate immune responses, inflammation and antigen presentation, however, V3000 induced a gene response profile that suggests a stronger inflammatory and apoptotic response compared to V3034. In the brain, both the strains of VEEV induced an innate immune response reflected by an upregulation of the genes involved in antigen presentation, interferon response, and inflammation. Similar to the spleen, V3000 was found to induce a stronger inflammatory response than V3034 in terms of induction of pro-inflammatory genes and associated pathways. Ccl2, Ccl5, Ccl6, and Ly6 were uniquely upregulated in V3000 infected mouse brains and correlated with the extensive inflammation observed in the brain. CONCLUSION: The common gene profile identified from V3000 and V3034 exposure can help in understanding a generalized host response to VEEV infection. Inflammatory genes that were uniquely identified in mouse brains with V3000 infection will help in better understanding the lethal neurovirulence of VEEV. Future studies are needed to explore the roles played by the genes identified in VEEV induced encephalitis.

Advances and new insights in the neuropathogenesis of dengue infection / Avanços e novos aspectos na neuropatogênese da dengue

Dengue virus (DENV) infects approximately 390 million persons every year in more than 100 countries. Reports of neurological complications are more frequently. The objective of this narrative review is to bring up the advances in the dengue neuropathogenesis. DENV can access the nervous system through blood-brain barrier disturbance mediated by cytokine. The blood-cerebrospinal fluid (CSF) barrier seems to be also involved, considering the presence of the virus in the CSF of patients with neurological manifestations. As for neurotropism, several studies showed the presence of RNA and viral antigens in brain tissue and CSF in humans. In murine model, different virus mutations were associated to neurovirulence. Despite the advances in the dengue neuropathogenesis, it is still necessary to determine a more appropriate animal model and increase the number of cases of autopsy. The detection of neurovirulence markers may contribute to establish a prognosis, the disease control and vaccine development.

O vírus da dengue (DENV) infecta anualmente cerca de 390 milhões de indivíduos em mais de 100 países. Complicações neurológicas estão se tornando frequentes. O objetivo desta revisão narrativa é abordar os avanços sobre neuropatogênese na dengue. O DENV invade o sistema nervoso central através do distúrbio da barreira hemato-encefálica, mediado por citocina. A barreira hemato-liquórica (LCR) parece também estar envolvida, considerando a presença do vírus no LCR. Estudos demonstraram RNA e antígenos virais no tecido cerebral e LCR de indivíduos infectados pelo DENV, confirmando o neurotropismo viral. Em modelo murino, diferentes mutações virais foram associadas a neurovirulência. Apesar dos avanços no conhecimento da neuropatogênese da dengue, ainda são necessários a determinação de um modelo animal mais adequado e aumento do número de casos de autopsia. A determinação de marcadores de neurovirulência pode contribuir para o estabelecimento de prognóstico, controle da doença e no desenvolvimento de vacina.

Avaliação da etiopagenia da encefalite causada pelo herpesvírus equino tipo 1 utilizando um modelo murino de neuroinfecção / Evaluation of the encephalitis etiopathogenesis caused by equine herpesvirus type 1 using a mouse model of neuroinfection

O herpesvirus equino tipo 1 (EHV-1) é um importante patógeno que causa doença respiratória, abortamento e desordens neurológicas em equinos. O presente estudo foi realizado visando estabelecer um modelo murino de infecção pelo EHV-1 para investigar a resposta do hospedeiro frente à infecção viral e as alterações neurológicas causadas por esse agente. [...] A gravidade dos sinais observados em camundongos infectados pode ser correlacionada com o pico destas citocinas pró-inflamatórias (TNF-α e IL-6) e da quimiocina CCL2, que são produzidas logo após a infecção viral por células residentes da glia e/ou infiltrativas no SNC. Esses achados indicam que as diferentes linhagens de camundongos isogênicos são susceptíveis a infecção por estirpes neuropatogênicas do EHV-1 e poderiam servir como modelo para o estudo da patogênese e dos mecanismos que contribuem no desenvolvimento da mieloencefalopatia herpética equina

Equid herpesvirus type 1 (EHV-1) is a major pathogen which causes respiratory disease, abortions and neurological disorders in horses. The present study was carried out to establish a murine model of EHV-1 infection and investigate host response against the virus and neurological disorders caused by this pathogen. [...] Mice with the background C57BL/6, which exhibit predominantly Th1-type responses, showed the highest levels of TNF-α, IL-6 and CCL-2 mRNA in the CNS, when compared to BALB/c mice. The severity of signs observed in infected mice could be correlated with the peak of these proinflammatory cytokines (TNF-α and IL-6) and the chemokine CCL2, which are produced early after viral infection by both cells infiltrating into the CNS from the periphery and/or glial resident cells. These findings indicate that several inbred mouse strains are susceptible to neuopathogenic EHV-1 strains and should be useful models for studying the pathogenesis and mechanisms contributing to equine herpes myeloencephalopathy in horses

A thymidine kinase-negative bovine herpesvirus 5 is highly attenuated for rabbits, but is neuroinvasive and establishes latent infection / Cepa do herpesvírus bovino tipo 5 defectiva na timidina quinase é altamente atenuada para coelhos mas é neuroinvasiva e estabelece infecção latente

Mutant viral strains deleted in non-essential genes represent useful tools to study the function of specific gene products in the biology of the virus. We herein describe an investigation on the phenotype of a bovine herpesvirus 5 (BoHV-5) recombinant deleted in the gene encoding the enzyme thymidine kinase (TK) in rabbits, with special emphasis to neuroinvasiveness and the ability to establish and reactivate latent infection. Rabbits inoculated with the parental virus (SV-507/99) (n=18) at a low titer (10(5.5)TCID50) shed virus in nasal secretions in titers up to 10(4.5)TCID50 for up to 12 days (average: 9.8 days [5-12]) and 5/ 16 developed neurological disease and were euthanized in extremis. Rabbits inoculated with the recombinant BoHV-5TKΔ at a high dose (10(7.1)TCID50) also shed virus in nasal secretions, yet to lower titers (maximum: 10(2.3)TCID50) and for a shorter period (average: 6.6 days [2-11]) and remained healthy. PCR examination of brain sections of inoculated rabbits at day 6 post-infection (pi) revealed a widespread distribution of the parental virus, whereas DNA of the recombinant BoHV-5TKΔ-was detected only in the trigeminal ganglia [TG] and olfactory bulbs [OB]. Nevertheless, during latent infection (52pi), DNA of the recombinant virus was detected in the TGs, OBs and also in other areas of the brain, demonstrating the ability of the virus to invade the brain. Dexamethasone (Dx) administration at day 65 pi was followed by virus reactivation and shedding by 5/8 rabbits inoculated with the parental strain (mean duration of 4.2 days [1 - 9]) and by none of seven rabbits inoculated with the recombinant virus. Again, PCR examination at day 30 post-Dx treatment revealed the presence of latent DNA in the TGs, OBs and in other areas of the brain of both groups. Taken together, these results confirm that the recombinant BoHV-5TKΔ is highly attenuated for rabbits. It shows a reduced ability to replicate in the nose but retains the ability [...](AU)

Cepas virais mutantes defectivas em genes não essenciais se constituem em ferramentas úteis para o estudo da função de proteínas virais na biologia dos vírus. Este estudo relata uma investigação do fenótipo, em coelhos, de uma cepa recombinante do herpesvírus bovino tipo 5 (BoHV-5) defectiva na enzima timidina quinase (TK), com ênfase para a neuroinvasividade e capacidade de estabelecer e reativar a infecção latente. Coelhos inoculados com o vírus parental (SV-507/99, n=18) em baixo título (10(5,5)TCID50) excretaram o vírus nas secreções nasais em títulos de até 10(4,5)TCID50/ mL por até 12 dias (média: 9,8 dias [5-12]) e 5/16 desenvolveram doença neurológica e morreram ou foram eutanasiados in extremis. Em contraste, coelhos inoculados com o recombinante BoHV-5TKΔ em alto título (10(7,1)TCID50) excretaram o vírus em títulos inferiores (máximo 10(2,3)TCID50/ mL), por um período menor (média: 6,6 days [2-11]) e permaneceram saudáveis. A realização de PCR em seções do encéfalo no dia 6 pós-infecção (pi) revelou uma ampla distribuição do DNA do vírus parental, enquanto o DNA do vírus recombinante foi detectado apenas nos gânglios trigêmeos [TGs] e nos bulbos olfatórios [OBs]. Não obstante, durante a infecção latente (52pi), o DNA do vírus recombinante foi detectado nos TGs, OBs e em outros locais do encéfalo, demonstrando que o vírus recombinante mantém a neuroinvasividade. Tratamento com dexamethasona (Dx) no dia 65 pi resultou em reativação e excreção viral por 5/8 dos coelhos inoculados com o vírus parental (duração média de 4,2 dias [1-9]) e por nenhum dos sete coelhos inoculados com o vírus recombinante. No entanto, PCR realizado no dia 30 pós-Dx revelou a presença de DNA latente do BoHV-5TKΔ nos TGs, OBs e em outras áreas do encéfalo. Esses resultados confirmam que o recombinante BoHV-5TKΔ é altamente atenuado para coelhos. A sua capacidade de replicação na mucosa nasal é reduzida, mas mantém a capacidade de invadir o encéfalo e estabelecer infecção [...](AU)

A thymidine kinase-negative bovine herpesvirus 5 is highly attenuated for rabbits, but is neuroinvasive and establishes latent infection / Cepa do herpesvírus bovino tipo 5 defectiva na timidina quinase é altamente atenuada para coelhos mas é neuroinvasiva e estabelece infecção latente

Mutant viral strains deleted in non-essential genes represent useful tools to study the function of specific gene products in the biology of the virus. We herein describe an investigation on the phenotype of a bovine herpesvirus 5 (BoHV-5) recombinant deleted in the gene encoding the enzyme thymidine kinase (TK) in rabbits, with special emphasis to neuroinvasiveness and the ability to establish and reactivate latent infection. Rabbits inoculated with the parental virus (SV-507/99) (n=18) at a low titer (10(5.5)TCID50) shed virus in nasal secretions in titers up to 10(4.5)TCID50 for up to 12 days (average: 9.8 days [5-12]) and 5/ 16 developed neurological disease and were euthanized in extremis. Rabbits inoculated with the recombinant BoHV-5TKΔ at a high dose (10(7.1)TCID50) also shed virus in nasal secretions, yet to lower titers (maximum: 10(2.3)TCID50) and for a shorter period (average: 6.6 days [2-11]) and remained healthy. PCR examination of brain sections of inoculated rabbits at day 6 post-infection (pi) revealed a widespread distribution of the parental virus, whereas DNA of the recombinant BoHV-5TKΔ-was detected only in the trigeminal ganglia [TG] and olfactory bulbs [OB]. Nevertheless, during latent infection (52pi), DNA of the recombinant virus was detected in the TGs, OBs and also in other areas of the brain, demonstrating the ability of the virus to invade the brain. Dexamethasone (Dx) administration at day 65 pi was followed by virus reactivation and shedding by 5/8 rabbits inoculated with the parental strain (mean duration of 4.2 days [1 - 9]) and by none of seven rabbits inoculated with the recombinant virus. Again, PCR examination at day 30 post-Dx treatment revealed the presence of latent DNA in the TGs, OBs and in other areas of the brain of both groups. Taken together, these results confirm that the recombinant BoHV-5TKΔ is highly attenuated for rabbits. It shows a reduced ability to replicate in the nose but retains the ability...

Cepas virais mutantes defectivas em genes não essenciais se constituem em ferramentas úteis para o estudo da função de proteínas virais na biologia dos vírus. Este estudo relata uma investigação do fenótipo, em coelhos, de uma cepa recombinante do herpesvírus bovino tipo 5 (BoHV-5) defectiva na enzima timidina quinase (TK), com ênfase para a neuroinvasividade e capacidade de estabelecer e reativar a infecção latente. Coelhos inoculados com o vírus parental (SV-507/99, n=18) em baixo título (10(5,5)TCID50) excretaram o vírus nas secreções nasais em títulos de até 10(4,5)TCID50/ mL por até 12 dias (média: 9,8 dias [5-12]) e 5/16 desenvolveram doença neurológica e morreram ou foram eutanasiados in extremis. Em contraste, coelhos inoculados com o recombinante BoHV-5TKΔ em alto título (10(7,1)TCID50) excretaram o vírus em títulos inferiores (máximo 10(2,3)TCID50/ mL), por um período menor (média: 6,6 days [2-11]) e permaneceram saudáveis. A realização de PCR em seções do encéfalo no dia 6 pós-infecção (pi) revelou uma ampla distribuição do DNA do vírus parental, enquanto o DNA do vírus recombinante foi detectado apenas nos gânglios trigêmeos [TGs] e nos bulbos olfatórios [OBs]. Não obstante, durante a infecção latente (52pi), o DNA do vírus recombinante foi detectado nos TGs, OBs e em outros locais do encéfalo, demonstrando que o vírus recombinante mantém a neuroinvasividade. Tratamento com dexamethasona (Dx) no dia 65 pi resultou em reativação e excreção viral por 5/8 dos coelhos inoculados com o vírus parental (duração média de 4,2 dias [1-9]) e por nenhum dos sete coelhos inoculados com o vírus recombinante. No entanto, PCR realizado no dia 30 pós-Dx revelou a presença de DNA latente do BoHV-5TKΔ nos TGs, OBs e em outras áreas do encéfalo. Esses resultados confirmam que o recombinante BoHV-5TKΔ é altamente atenuado para coelhos. A sua capacidade de replicação na mucosa nasal é reduzida, mas mantém a capacidade de invadir o encéfalo e estabelecer infecção...

Propiedades biológicas de cepas venezolanas de DENV-2 aisladas de pacientes con fiebre de dengue y fiebre hemorrágica del dengue / Biological properties of Venezuelan DENV-2 isolated from patients with Dengue Fever and Dengue Hemorraghic Fever

INTRODUCCIÓN: el virus del dengue es responsable de un creciente problema de salud pública, sin que se haya dilucidado aún el papel de algunos atributos biológicos en la virulencia y(o) patogenicidad de los serotipos virales. OBJETIVO: evaluar propiedades biológicas in vitro e in vivo de 4 cepas venezolanas de DENV2 (LAR1693, LAR19094, LAR2303, INH35262) causantes de fiebre de dengue y fiebre hemorrágica del dengue y la cepa (16681) aislada de un paciente con fiebre hemorrágica del dengue /síndrome de choque del dengue. MÉTODOS: las cepas evaluadas fueron aisladas de sueros de pacientes virémicos con fiebre de dengue y fiebre hemorrágica del dengue. La titulación se realizó mediante el ensayo de titulación en placas en la línea celular BHK-21, esta metodología permitió determinar el tamaño de placa y la cinética de multiplicación viral. Se determinó el tiempo y la intensidad del efecto citopático e inmunofluorescencia específica en la línea celular C6/36-HT mediante las técnicas de microscopia óptica y de fluorescencia, respectivamente. De manera adicional, se emplearon las metodologías de citometría de flujo para cuantificar la replicación viral en las células C6/36-HT y la inoculación en ratones lactantes para la determinación de neurovirulencia. RESULTADOS: las cepas, excepto 16681, produjeron placas pequeñas (m.o.i.: 0,01). La replicación viral en C6/36-HT fue mayor para 16681. El efecto citopático permitió clasificar las cepas en baja (LAR19094 y LAR2303), moderada (INH35262 y 16681) y alta citopatogenicidad (LAR1693). El primer día posinoculación se detectó inmunofluorescencia entre 5 y 50 %, excepto para 16681. La neurovirulencia en ratones lactantes inoculados con 10(4) ufp/mL causó 77,5 % (INH35262) a 100 % (LAR1693 y 16681) de mortalidad, con variabilidad en los días de supervivencia. La replicación viral (24, 36 y 48 h posinoculación) mediante citometría de flujo fue desde 3,33 % hasta 90,3 %. CONCLUSIONES: los resultados permitieron concluir que el comportamiento de las cepas virales no fue evidencia suficiente para correlacionar estos atributos biológicos in vitro e in vivo con la severidad de los cuadros clínicos.

INTRODUCTION: the dengue virus causes a growing public health problem, but it has not been possible yet to determine the role of some biological attributes in the virulence and /or pathogeneity of viral serotypes. OBJECTIVE: to evaluate the in vitro and in vivo biological properties of 4 Venezuelan DENV-2 strains (LAR1693, LAR19094, LAR2303, IHN35262) responsible for dengue fever and dengue hemorrhagic fever and the reference strain (16681) isolated from a patient suffering dengue hemorrhagic fever and dengue shock syndrome. METHODS: the evaluated strains were isolated from sera of viremic patients with dengue fever and dengue hemorrhagic fever. They were then subjected to the plaque titration assay in BHK-21 cell line in order to determine the plaque size and kinetics of viral replication. The length of time and intensity of cytopathic effect and specific immunofluorescence on the C6/36-HT cell line was evaluated by optical microscopy and fluorescence respectively. Additionally, the flow cytometry to quantify viral replication in C6/36-HT cells and the intracerebral inoculation in newborn mice to find out neurovirulence were both used. RESULTS: all strains, except for 16681, showed small plaques at 0.01 m.o.i. The viral replication in C6/36-HT was higher for 16681 strain. Through cytophatic effect observations the strains were classified with low (LAR19094 and LAR2303), mild (INH35262 y 16681) and high (LAR1693) cytophatogeneity. The specific immunofluoresce ranged 5 to 50 % in the first day post inoculation, except for 16681 strain. The neurovirulence in newborn mices inoculated with 10(4) pfu/mL yielded 77.5 (INH35262) to 100% (LAR1693 y 16681) mortality rate and variability during survival days. The viral replication at 24.36 and 48 hours after inoculation was assessed by flow cytometry, ranging from 3.33 to 90.3% CONCLUSIONS: the results led to the conclusion that viral strain behaviors were not sound evidence to correlate these in vitro e in vivo biological attributes with the severity of the clinical pictures.