Effects of neutrophil extracellular traps during human respiratory syncytial virus infection in vitro / Efeitos das redes extracelulares dos neutrófilos durante a infecção in vitro pelo vírus sincicial respiratório

Abstract The human respiratory syncytial virus (hRSV) is the most common cause of severe lower respiratory tract diseases in young children worldwide, leading to a high number of hospitalizations and significant expenditures for health systems. Neutrophils are massively recruited to the lung tissue of patients with acute respiratory diseases. At the infection site, they release neutrophil extracellular traps (NETs) that can capture and/or inactivate different types of microorganisms, including viruses. Evidence has shown that the accumulation of NETs results in direct cytotoxic effects on endothelial and epithelial cells. Neutrophils stimulated by the hRSV-F protein generate NETs that are able to capture hRSV particles, thus reducing their transmission. However, the massive production of NETs obstructs the airways and increases disease severity. Therefore, further knowledge about the effects of NETs during hRSV infections is essential for the development of new specific and effective treatments. This study evaluated the effects of NETs on the previous or posterior contact with hRSV-infected Hep-2 cells. Hep-2 cells were infected with different hRSV multiplicity of infection (MOI 0.5 or 1.0), either before or after incubation with NETs (0.5-16 μg/mL). Infected and untreated cells showed decreased cellular viability and intense staining with trypan blue, which was accompanied by the formation of many large syncytia. Previous contact between NETs and cells did not result in a protective effect. Cells in monolayers showed a reduced number and area of syncytia, but cell death was similar in infected and non-treated cells. The addition of NETs to infected tissues maintained a similar virus-induced cell death rate and an increased syncytial area, indicating cytotoxic and deleterious damages. Our results corroborate previously reported findings that NETs contribute to the immunopathology developed by patients infected with hRSV.

Resumo O vírus sincicial respiratório humano (hRSV) é a causa mais comum de doenças graves do trato respiratório inferior em crianças pequenas em todo o mundo, resultando em grande número de hospitalizações e gastos significativos para os sistemas de saúde. Neutrófilos são recrutados em massa para o tecido pulmonar de pacientes com doenças respiratórias agudas. No local da infecção, eles liberam armadilhas extracelulares de neutrófilos (NETs) que podem capturar e/ou inativar diferentes tipos de microrganismos, incluindo vírus. Evidências demonstraram que o acúmulo de NETs resulta em efeitos citotóxicos diretos nas células endoteliais e epiteliais. Os neutrófilos estimulados pela proteína F do vírus sincicial respiratório (hRSV-F) geram NETs que são capazes de capturar partículas virais, reduzindo assim sua transmissão. No entanto, a produção maciça de NETs obstrui as vias aéreas e aumenta a gravidade da doença. Assim, um maior conhecimento sobre os efeitos das NETs durante as infecções por hRSV é essencial para o desenvolvimento de novos tratamentos específicos e eficazes. Este estudo avaliou os efeitos das NETs no contato prévio ou posterior à infecção de células Hep-2 com hRSV. As células Hep-2 foram infectadas com diferentes quantidades de hRSV (multiplicidade de infecção ou MOI 0,5 ou 1,0), antes ou após a incubação com NETs (0,5-16 μg/mL). Células infectadas e não tratadas mostraram redução da viabilidade celular e intensa coloração com azul de tripano, que foi acompanhada pela formação de sincícios numerosos e grandes. O contato prévio entre as NETs e as células não resultou em efeito protetor. As células em monocamadas mostraram um número e área de sincícios reduzidos, mas a morte celular foi semelhante àquela apresentada por células infectadas e não tratadas. A adição de NETs aos tecidos infectados manteve taxa de morte celular e formação de sincícios semelhantes àqueles induzidos pelo vírus em células não tratadas, indicando danos citotóxicos e deletérios. Nossos resultados corroboram achados relatados anteriormente de que as NETs contribuem para a imunopatologia desenvolvida por pacientes infectados com hRSV.

Effects of neutrophil extracellular traps during human respiratory syncytial virus infection in vitro / Efeitos das redes extracelulares dos neutrófilos durante a infecção in vitro pelo vírus sincicial respiratório

The human respiratory syncytial virus (hRSV) is the most common cause of severe lower respiratory tract diseases in young children worldwide, leading to a high number of hospitalizations and significant expenditures for health systems. Neutrophils are massively recruited to the lung tissue of patients with acute respiratory diseases. At the infection site, they release neutrophil extracellular traps (NETs) that can capture and/or inactivate different types of microorganisms, including viruses. Evidence has shown that the accumulation of NETs results in direct cytotoxic effects on endothelial and epithelial cells. Neutrophils stimulated by the hRSV-F protein generate NETs that are able to capture hRSV particles, thus reducing their transmission. However, the massive production of NETs obstructs the airways and increases disease severity. Therefore, further knowledge about the effects of NETs during hRSV infections is essential for the development of new specific and effective treatments. This study evaluated the effects of NETs on the previous or posterior contact with hRSV-infected Hep-2 cells. Hep-2 cells were infected with different hRSV multiplicity of infection (MOI 0.5 or 1.0), either before or after incubation with NETs (0.5–16 μg/mL). Infected and untreated cells showed decreased cellular viability and intense staining with trypan blue, which was accompanied by the formation of many large syncytia. Previous contact between NETs and cells did not result in a protective effect. Cells in monolayers showed a reduced number and area of syncytia, but cell death was similar in infected and non-treated cells. The addition of NETs to infected tissues maintained a similar virus-induced cell death rate and an increased syncytial area, indicating cytotoxic and deleterious damages. Our results corroborate previously reported findings that NETs contribute to the immunopathology developed by patients infected with hRSV.

O vírus sincicial respiratório humano (hRSV) é a causa mais comum de doenças graves do trato respiratório inferior em crianças pequenas em todo o mundo, resultando em grande número de hospitalizações e gastos significativos para os sistemas de saúde. Neutrófilos são recrutados em massa para o tecido pulmonar de pacientes com doenças respiratórias agudas. No local da infecção, eles liberam armadilhas extracelulares de neutrófilos (NETs) que podem capturar e/ou inativar diferentes tipos de microrganismos, incluindo vírus. Evidências demonstraram que o acúmulo de NETs resulta em efeitos citotóxicos diretos nas células endoteliais e epiteliais. Os neutrófilos estimulados pela proteína F do vírus sincicial respiratório (hRSV-F) geram NETs que são capazes de capturar partículas virais, reduzindo assim sua transmissão. No entanto, a produção maciça de NETs obstrui as vias aéreas e aumenta a gravidade da doença. Assim, um maior conhecimento sobre os efeitos das NETs durante as infecções por hRSV é essencial para o desenvolvimento de novos tratamentos específicos e eficazes. Este estudo avaliou os efeitos das NETs no contato prévio ou posterior à infecção de células Hep-2 com hRSV. As células Hep-2 foram infectadas com diferentes quantidades de hRSV (multiplicidade de infecção ou MOI 0,5 ou 1,0), antes ou após a incubação com NETs (0,5–16 μg/mL). Células infectadas e não tratadas mostraram redução da viabilidade celular e intensa coloração com azul de tripano, que foi acompanhada pela formação de sincícios numerosos e grandes. O contato prévio entre as NETs e as células não resultou em efeito protetor. As células em monocamadas mostraram um número e área de sincícios reduzidos, mas a morte celular foi semelhante àquela apresentada por células infectadas e não tratadas. A adição de NETs aos tecidos infectados manteve taxa de morte celular e formação de sincícios [...].

Effects of neutrophil extracellular traps during human respiratory syncytial virus infection in vitro

Abstract The human respiratory syncytial virus (hRSV) is the most common cause of severe lower respiratory tract diseases in young children worldwide, leading to a high number of hospitalizations and significant expenditures for health systems. Neutrophils are massively recruited to the lung tissue of patients with acute respiratory diseases. At the infection site, they release neutrophil extracellular traps (NETs) that can capture and/or inactivate different types of microorganisms, including viruses. Evidence has shown that the accumulation of NETs results in direct cytotoxic effects on endothelial and epithelial cells. Neutrophils stimulated by the hRSV-F protein generate NETs that are able to capture hRSV particles, thus reducing their transmission. However, the massive production of NETs obstructs the airways and increases disease severity. Therefore, further knowledge about the effects of NETs during hRSV infections is essential for the development of new specific and effective treatments. This study evaluated the effects of NETs on the previous or posterior contact with hRSV-infected Hep-2 cells. Hep-2 cells were infected with different hRSV multiplicity of infection (MOI 0.5 or 1.0), either before or after incubation with NETs (0.516 g/mL). Infected and untreated cells showed decreased cellular viability and intense staining with trypan blue, which was accompanied by the formation of many large syncytia. Previous contact between NETs and cells did not result in a protective effect. Cells in monolayers showed a reduced number and area of syncytia, but cell death was similar in infected and non-treated cells. The addition of NETs to infected tissues maintained a similar virus-induced cell death rate and an increased syncytial area, indicating cytotoxic and deleterious damages. Our results corroborate previously reported findings that NETs contribute to the immunopathology developed by patients infected with hRSV.

Resumo O vírus sincicial respiratório humano (hRSV) é a causa mais comum de doenças graves do trato respiratório inferior em crianças pequenas em todo o mundo, resultando em grande número de hospitalizações e gastos significativos para os sistemas de saúde. Neutrófilos são recrutados em massa para o tecido pulmonar de pacientes com doenças respiratórias agudas. No local da infecção, eles liberam armadilhas extracelulares de neutrófilos (NETs) que podem capturar e/ou inativar diferentes tipos de microrganismos, incluindo vírus. Evidências demonstraram que o acúmulo de NETs resulta em efeitos citotóxicos diretos nas células endoteliais e epiteliais. Os neutrófilos estimulados pela proteína F do vírus sincicial respiratório (hRSV-F) geram NETs que são capazes de capturar partículas virais, reduzindo assim sua transmissão. No entanto, a produção maciça de NETs obstrui as vias aéreas e aumenta a gravidade da doença. Assim, um maior conhecimento sobre os efeitos das NETs durante as infecções por hRSV é essencial para o desenvolvimento de novos tratamentos específicos e eficazes. Este estudo avaliou os efeitos das NETs no contato prévio ou posterior à infecção de células Hep-2 com hRSV. As células Hep-2 foram infectadas com diferentes quantidades de hRSV (multiplicidade de infecção ou MOI 0,5 ou 1,0), antes ou após a incubação com NETs (0,516 g/mL). Células infectadas e não tratadas mostraram redução da viabilidade celular e intensa coloração com azul de tripano, que foi acompanhada pela formação de sincícios numerosos e grandes. O contato prévio entre as NETs e as células não resultou em efeito protetor. As células em monocamadas mostraram um número e área de sincícios reduzidos, mas a morte celular foi semelhante àquela apresentada por células infectadas e não tratadas. A adição de NETs aos tecidos infectados manteve taxa de morte celular e formação de sincícios semelhantes àqueles induzidos pelo vírus em células não tratadas, indicando danos citotóxicos e deletérios. Nossos resultados corroboram achados relatados anteriormente de que as NETs contribuem para a imunopatologia desenvolvida por pacientes infectados com hRSV.

Research progress on vaccines against human respiratory syncytial virus / 中国生物制品学杂志

@#Human respiratory syncytial virus(hRSV)is one of the main pathogens that cause lower respiratory tract infection in infants and the elderly.hRSV genome contains 10 genes with a full length of 15 222 bp,encoding 11 proteins(9structural proteins and 2 non-structural proteins).Different proteins play different roles in the pathogenesis of hRSV.With the in-depth research on the biological and structural characteristics of hRSV,various types of hRSV vaccines have been developed,making rapid progress.For example,hRSV attenuated live vaccine hRSV ?NS2/?1313/I1314L has entered Phase II clinical trial,and hRSV subunit protein vaccine Pre-F-GCN4t has entered Phase III clinical trial.In this paper,the biological characteristics of hRSV and the types of hRSV vaccines with rapid progress are reviewed so as to provide a reference for the development of hRSV vaccines in China.

Virus isolation and genotype identification of human respiratory syncytial virus in Guizhou Province, China

ABSTRACT To investigate the genetic variation and molecular epidemiology characteristics of Human Respiratory Syncytial Virus (HRSV) in Guizhou Province, nasopharyngeal aspirates were collected from patients with acute respiratory infection (ARI) in Guizhou Provincial People's Hospital, from December 2017 to March 2018, and inoculated to Hep-2 cells to isolate HRSV. Cells that showed cytopathic effect (CPE) were then confirmed by indirect immunofluorescence assay and reverse transcription. The sequence of the PCR products was determined for HRSV isolates, and the genetic variation was analyzed. Out of 196 nasopharyngeal aspirate samples, HRSV were isolated in 39. The second hypervariable region at the 3' terminal of glycoprotein gene (HVR2) sequence analysis showed that subgroup A was dominant. Seventy-nine percent of the isolates belonged to subgroup A, ON1 genotype, and 21 % belonged to subgroup B, BA9 genotype, which indicates that the dominant HRSV circulating in Guizhou Province was subgroup A, genotype ON1, co-circulating with a less prevalent subgroup B, genotype BA9.

Genetic diversity of human respiratory syncytial virus in children with acute respiratory infections in Chennai, South India

Introduction: Human respiratory syncytial virus (HRSV) an RNA virus belonging to Pneumoviridae family, is an important cause of acute respiratory infections (ARIs) in young children. HRSV circulates as two subgroups A and B, which are further categorised into several genotypes. New genotypes may replace existing ones over successive epidemic seasons and multiple genotypes may cocirculate in the same community rendering it important to monitor them at the molecular level. The present study assessed the circulating genotypes of HRSV in Chennai. Materials and Methods: Two hundred and sixty-seven children with ARI were recruited during the study from April 2016 to March 2018 for detecting HRSV A and B by real-time reverse transcription-polymerase chain reaction. Phylogeny and selection pressure analysis were done. Results: Fifty-seven of the 267 samples (21.3%) were positive for HRSV, of which 7.1% and 14.2% were HRSV A and B, respectively, indicating that HRSV B was the major subgroup circulating in Chennai. Peak activity of HRSV was observed during the monsoon and winter months. Phylogenetic analysis of 2nd hypervariable region (HVR) of attachment glycoprotein gene (G gene) revealed that the HRSV A strains belonged to ON1 and HRSV B strains belonged to BA9 genotypes. Several unique amino acid substitutions were observed among the study strains. The Shannon entropy plot revealed that the HRSV A strains from our study have a high potential for amino acid substitutions in the 2nd HVR of G gene. Conclusion: This study underlines the genetic diversity of HRSV and emphasises the need for continued molecular surveillance for infection management and prevention strategies.

Etiología viral de las infecciones respiratorias agudas graves en una unidad de cuidados intensivos pediátricos / Viral etiology of severe acute respiratory infections in a pediatric intensive care unit

RESUMEN Objetivos. Identificar los principales agentes etiológicos virales en pacientes con infección respiratoria aguda grave (IRAG) hospitalizados en una Unidad de Cuidados Intensivos Pediátricos (UCIP) y analizar sus características clínicas. Materiales y métodos. Estudio longitudinal prospectivo en menores de cinco años hospitalizados por IRAG en la UCIP del Instituto Nacional de Salud del Niño en Lima, Perú. Se realizaron pruebas de inmunofluorescencia directa y RT-PCR en tiempo real para el diagnóstico de virus respiratorios en muestras de aspirado traqueal o hisopado nasofaríngeo. Resultados. Se incluyeron 117 pacientes. La mediana de edad fue cuatro meses, el 66% presentaron comorbilidad y el 91% requirieron ventilación mecánica. Se identificó monoinfección por virus respiratorios en el 47% y coinfección viral en el 2,6%, siendo el virus sincicial respiratorio subtipo A (VSR-A) el más frecuente. La mediana del tiempo de hospitalización fue de 21 días y 20 (17%) pacientes fallecieron. Se encontró asociación entre el antecedente de enfermedad pulmonar crónica y la infección por el VSR-A (p=0,045) y entre el síndrome de Down y la infección por virus influenza A (p=0,01). Después de controlar por potenciales factores de confusión, se halló que la cardiopatía congénita (RR: 3,1; IC 95%: 1,3-5,8; p=0,002) y la infección nosocomial (RR: 2,6; IC 95%: 1,0-5,3; p=0,01) incrementaron el riesgo de muerte en pacientes con IRAG. Conclusiones. El VSR-A fue la etiología viral más frecuente en menores de cinco años hospitalizados por IRAG en la UCIP. No se encontró asociación entre la infección viral y la sobrevida del paciente.

ABSTRACT Objectives. To identify the main viral etiological agents in patients with severe acute respiratory infection (SARI) hospitalized in a Pediatric Intensive Care Unit (PICU) and to analyze their clinical characteristics. Materials and Methods. Prospective longitudinal study in children under five years of age hospitalized due to SARI at the PICU of t Instituto Nacional de Salud del Niño (National Children´s Hospital) in Lima, Peru. Real-time direct immunofluorescence and RT-PCR tests were performed for the diagnosis of respiratory viruses on tracheal aspirate or nasopharyngeal swab samples. Results. We included 117 patients. Median age was four months, 66% had comorbidity and 91% required mechanical ventilation. Respiratory virus monoinfection was identified in 47% and viral co-infection in 2.6%, with the respiratory syncytial virus subtype A (RSV-A) being the most frequent. The median length of hospitalization was 21 days and 20 (17%) patients died. An association was found between a history of chronic lung disease and RSV-A infection (p=0.045), and between Down syndrome and influenza A virus infection (p=0.01). After controlling for potential confounders, congenital heart disease (RR 3.1; 95% CI: 1.3-5.8, p=0.002) and nosocomial infection (RR 2.6; 95% CI: 1.0-5.3, p=0.01) were found to increase the risk of death in patients with SARI. Conclusions. RSV-A was the most common viral etiology in children under five hospitalized by SARI at the PICU. No association was found between viral infection and patient survival.

Human metapneumovirus in Southern Brazil

INTRODUCTION Infections caused by respiratory viruses are important problems worldwide, especially in children. Human metapneumovirus (hMPV) is a respiratory pathogen and causes severe infections with nonspecific symptoms. This study reports the hMPV occurrence and dissemination in southern Brazil and compares the frequency of occurrence of this virus and the human respiratory syncytial virus (hRSV) in the epidemiological weeks in a three-year period (2009-2011). METHODS: In total, 545 nasopharyngeal (NP) specimens from individuals with Severe Acute Respiratory Syndrome (SARS) who were negative for other seven respiratory viruses were analyzed for the presence of hMPV. Human metapneumovirus was detected by direct immunofluorescence and real-time reverse transcription polymerase chain reaction. RESULTS: hMPV was detected in 109 patients from the main geographic regions of the southernmost state of Brazil, presenting similar overall prevalence in males (46.8%) and females (53.2%). Among children who were less than six years old, hMPV was detected in 99 samples of all age groups, with a higher frequency in infants who were less than one year old (45.7%) compared to all other age groups until six years. hMPV and hRSV infection occurred in almost the same epidemiological weeks (EWs) of each year, with peaks of incidence between EW 31/37 and EW 26/38 for the years 2009 and 2011, respectively. hMPV was further detected in several cases of SARS and it was the only virus detected in three deaths. CONCLUSIONS These findings indicate that hMPV is in circulation in southern Brazil and highlight the importance of diagnosing hMPV for influenza-like illness in the population. (AU)

Research progress on Chinese materia medica inhibitors with anti-human respiratory syncytial virus effect / 中草药

Human respiratory syncytial virus (hRSV) was considered to be the leading cause of lower respiratory tract disease in infants and young children. So far, there was a lack of effective anti-hRSV drugs and vaccines. In this paper, the latest research progress on anti hRSV infection drugs was reviewed from three aspects of effective constituents of Chinese materia medica, Chinese materia medica, and Chinese medicine compound antiviral inhibitor research and development, which would lay a theoretical foundation for the research and development of anti-hRSV drugs and the anti hRSV infection treatment strategy.

Potenciales consecuencias neurocognitivas de infección por virus respiratorio sincicial humano / Potential neurocognitive consequences of infection by human respiratory syncytial virus

Human respiratory syncytial virus (RSV) infection remains as a major cause of morbidity and mortality among pediatric population. Immune response is poor and unable to establish a long term effective protection against this virus. Of particular interest has been the description of extrapulmonary manifestations of RSV infection in liver, kidney, endocrine system, heart and brain, associated to infection of peripheral blood. In the central nervous system (CNS), recent studies in animals have suggested long term neurocognitive impairment due to a direct damage from the virus. This was prevented in rats by a recombinant BCG vaccine expressing a nucleoprotein N of RSV that produces an effective immune response against the virus, not allowing its dissemination to the CNS. These findings in animal models highlight the importance of conducting more specific studies in children affected with severe infection by RSV. Therefore, our group is currently conducting an assessment of the possible long-term cognitive impairment in children under 2 years. The results of this study could be a strong argument to continue looking for an effective method for protecting against RSV infection.

La infección por virus respiratorio sincicial humano (VRS) es una de las principales causas de morbimortalidad en población pediátrica. La respuesta inmune generada contra VRS es poco eficiente para su eliminación y logra establecer sólo protección parcial contra infecciones posteriores. De especial interés en los últimos años ha sido la descripción de manifestaciones extra-pulmonares de la infección por VRS en hígado, riñón, sistema endocrino, corazón y cerebro. A nivel de sistema nervioso central (SNC), estudios recientes en modelos animales han sugerido problemas neurocognitivos a largo plazo derivados de un daño directo del virus en el cerebro. Este daño logró ser prevenido con vacuna experimental BCG recombinante, que expresa la nucleoproteína N de VRS e induce inmunidad efectiva, impidiendo la diseminación del virus hacia el SNC. Estos hallazgos en modelo animal han dado cuenta de la importancia de efectuar estudios más detallados en niños afectados por VRS grave. Por tal motivo, actualmente se está realizando una evaluación de la posible alteración cognitiva a largo plazo en niños bajo dos años de edad por parte de nuestro grupo. Los resultados de este estudio podrían significar un argumento muy importante para continuar en la búsqueda de un método efectivo de protección contra esta infección.

Characteristics of Respiratory Syncytial Virus isolated from Acute Respiratory Infectious Disease in Busan

Human respiratory syncytial virus (HRSV) is known as the leading cause of respiratory tract illness in infancy and elderly children worldwide. We investigate the prevalence pattern and genetic characteristics in the second variable region G protein gene of HRSV during 5 consecutive seasons from 2010 to 2015. A total of 4,793 specimens (throat swabs) were collected from patients with acute respiratory tract. HRSV were evaluated and classified as HRSV A (n=111) or HRSV B (n=64) by real-time RT-PCR or RT-PCR. In general HRSV were detected in winter season. Coughing, fever, rhinorrhea and sputum were confirmed main symptoms in patients with HRSV. There were no significant differences in clinical characteristics or severity according to the HRSV subgroup infections. Out of 175 HRSV positive samples, 94 samples were successfully sequenced using G gene. Phylogenetic analysis revealed that 62 HRSV-A strains clustered into genotypes ON1 (n=54, 87.1%), NA1 (n=7), NA2 (n=1) and 32 HRSV-B strains clustered into three genotypes: BA4 (n=28, 87.5%), BA5 (n=2), BA6 (n=2). These results provide a better understanding of HRSV prevalence pattern and genetic characteristics.

Respiratory virus infections among hospitalized patients with suspected influenza A H1N1 2009 virus during the first pandemic wave in Brazil

INTRODUCTION: During the first pandemic wave of the influenza A H1N1 2009 virus, morbidity was particularly high in Brazil. Hospitalizations resulting from severe respiratory disease due to suspected influenza-like illness created an opportunity to identify other respiratory viruses causing lower respiratory infections. OBJECTIVE: The purpose of this study was to assess viral etiologies among samples collected during the first pandemic wave of H1N1 2009 from hospitalized patients with suspected cases in a Brazilian Sentinel Hospital. PATIENTS AND METHODS: Viral etiologies were investigated in samples from 98 children and 61 adults with fever, cough and dyspnea who were admitted to São Paulo Sentinel Hospital with suspected H1N1 infection. RESULTS: From August to November 2009, in 19.5 percent (31/159) of the samples 2009 H1N1 virus was detected with 23 percent (14/61) in adults (median age 25 years, range: 14-55 years) and 18.4 percent (17/92) in children (median age 5 years, range: 4 months - 11 years). Among the negative samples, a wide range of causative etiologic agents was identified. Human rhinovirus was the most frequent virus (23.91 percent) in children and human metapneumovirus (11.48 percent) was the second most frequent in adults, following 2009 H1N1 virus (22.95 percent). CONCLUSION: These data highlight the need to diagnose other viral infections that can co-circulate with influenza and may have been neglected by physicians as causes of severe respiratory diseases.

Vírus respiratório sincicial humano em crianças hospitalizadas por infecções agudas das vias aéreas inferiores / Human respiratory syncytial virus in children hospitalized for acute lower respiratory infection

OBJETIVO: Avaliar a prevalência e a sazonalidade do vírus respiratório sincicial humano (VRSH) em crianças de 0 a 6 anos hospitalizadas por infecção aguda das vias aéreas inferiores (IVAI) em São José do Rio Preto (SP) e a associação entre faixa etária, diagnóstico e VRSH. MÉTODOS: Entre maio de 2004 e setembro de 2005, foram estudados 290 episódios consecutivos de IVAI adquiridos na comunidade em crianças de 0 a 6 anos internadas no Hospital de Base de São José do Rio Preto. Para identificação do VRSH, foram coletadas amostras de secreção de nasofaringe e realizou-se análise molecular por meio da técnica de RT-PCR. RESULTADOS: A prevalência de VRSH foi de 29,3 por cento nos episódios de IVAI hospitalizados. A IVAI foi frequente em lactentes (mediana de idade = 13,5 meses). O VRSH foi mais frequente nos casos de bronquiolite (64 por cento) e no primeiro ano de vida (35 por cento). Os episódios de infecção por VRSH ocorreram entre o outono e a primavera, com frequência maior em 2004 do que em 2005. Os critérios clínicos e radiológicos não foram suficientes para o diagnóstico de infecção pelo VRSH. Em 78,8 por cento dos episódios de VRSH, houve tratamento com antibiótico. CONCLUSÕES: A prevalência do VRSH em crianças de 0 a 6 anos hospitalizadas por IVAI foi elevada, com predomínio nas mais jovens ou com bronquiolite. A circulação do vírus variou nos dois anos estudados. Os resultados sugerem necessidade de diagnóstico laboratorial do VRSR na prática clínica.

OBJECTIVE: To evaluate the prevalence and seasonality of human respiratory syncytial virus (HRSV) in children aged 0 to 6 years, hospitalized with acute lower respiratory infection (ALRI) in São José do Rio Preto, SP, Brazil, and the association between age, diagnosis, and HRSV. METHODS: Between May 2004 and September 2005, we studied 290 consecutive episodes of community-acquired ALRI in children aged 0 to 6 years admitted to the Hospital de Base of São José do Rio Preto. In order to detect HRSV, nasopharyngeal secretion samples were collected and RT-PCR molecular analysis was performed. RESULTS: The HRSV prevalence was 29.3 percent for the cases of hospitalized patients with ALRI. ALRI was common in infants (median age = 13.5 months). HRSV was more frequent in cases of bronchiolitis (64 percent) and during the first year of life (35 percent). Episodes of HRSV infection occurred between fall and spring, showing higher frequency in 2004 than in 2005. Clinical and radiological criteria were not sufficient to establish the diagnosis of infection with HRSV. Antibiotic therapy was used in 78.8 percent of episodes of HRSV. CONCLUSIONS: There was a high prevalence of HRSV in children aged 0 to 6 years who were hospitalized for ALRI, predominantly in younger patients or those with bronchiolitis. The circulation of the virus varied in the two years studied. Our results suggest the need for laboratory diagnosis of HRSV in the clinical practice.

Epidemiología molecular del virus sincicial respiratorio en pacientes pediátricos en un período de seis años / Molecular epidemiology of respiratory syncytial virus in pediatric patients in a six-year period

El virus sincicial respiratorio humano (HRSV) es la principal causa de infección respiratoria aguda baja (IRAB) grave en niños pequeños, no existiendo una vacuna eficaz para prevenirlo. Se analizaron muestras de aspirados nasofaríngeos de pacientes hospitalizados por IRAB en un período de seis años (1999-2004). Por RT-PCR se subtipificaron 353 muestras positivas para HRSV por inmunofluorescencia directa. Entre éstas, 65,7% pertenecieron al subtipo A y 34,3% al subtipo B. Por amplificación, RFLP y secuenciación del gen de la glucoproteína G, principal antígeno neutralizante, se estudiaron las relaciones filogenéticas. Para el subtipo A, se encontraron dos patrones de restricción principales (PA1 y PA2) y dos genotipos, GA2 y GA5, que cocircularon durante el período analizado. El análisis filodinámico determinó alternancia en la circulación de clados genéticos en el tiempo entre Argentina y otros países, mientras que otros cocircularon globalmente. El análisis del subtipo B, permitió describir un evento genético inusual, la duplicación de un segmento de 60 nucleótidos. Filodinámicamente se demostró que estos virus, denominados BA, circularon en Argentina durante todo el período analizado, asociándose con cepas del resto del mundo y mostrando un ancestro en común que probablemente se haya generado en Argentina entre 1997 y 1999. Este trabajo contribuye a un mejor conocimiento evolutivo del virus, dándole un rol fundamental al laboratorio de virología en la vigilancia molecular activa.

Human respiratory syncytial virus (HRSV) is the leading cause of acute lower respiratory tract infections (ALRI) in children. Despite considerable efforts there is as yet no satisfactory vaccine available. In this work, nasopharyngeal aspirates taken from hospitalized children with ALRI were analyzed over six consecutive epidemic seasons (1999-2004). By RT-PCR, 353 positive samples for HRSV by direct immunofluorescence were subtypified. Among them, 65.7% belonged to subtype A and 34.3% to subtype B. Therefore, a phylogenetic analysis was performed using RFLP and sequence analysis of the G-glycoprotein gene, the main neutralizing antigen. The results for A subtype, showed that there were two main restriction patterns (PA1 and PA2) and two genotypes (GA2 and GA5) cocirculating during the period studied. The phylodinamic analysis showed that there were some genetic clades which along this period of time alternated their circulation between Argentina and other countries and that other clades cocirculated worldwide. The subtype B analysis enabled the description of an unusual genetic event such us a 60 nucleotide duplication. The phylodinamic analysis showed that all of these viruses, designated BA, circulated in our country during the period studied and were associated with strains reported wordlwide, showing a common ancestor which had probably been generated in a single genetic event between 1997 and 1999 in Argentina. This work contributes to a better understandig of this virus evolution, giving a fundamental role to the virology laboratory in the active molecular surveillance.

Structural analysis of human respiratory syncytial virus P protein: identification of intrinsically disordered domains

Human Respiratory Syncytial Virus P protein plus the viral RNA, N and L viral proteins, constitute the viral replication complex. In this report we describe that HRSV P protein has putative intrinsically disordered domains predicted by in silico methods. These two domains, located at the amino and caboxi terminus, were identified by mass spectrometry analysis of peptides obtained from degradation fragments observed in purified P protein expressed in bacteria. The degradation is not occurring at the central oligomerization domain, since we also demonstrate that the purified fragments are able to oligomerize, similarly to the protein expressed in cells infected by HRSV. Disordered domains can play a role in protein interaction, and the present data contribute to the comprehension of HRSV P protein interactions in the viral replication complex.

Variabilidade genética da proteína G do HRSV de amostras com o genótipo BA / Genetic variability of the G protein of HRSV samples with BA genotype

Para estudar a epidemiologia e evolução do novo genótipo HRSVB denominado BA, caracterizado pela duplicação de 60 nt na proteína G, analisamos 4274 amostras clínicas coletadas de crianças hospitalizadas no Hospital Universitário/USP e Hospital da Santa Casa de Misericórdia, cidade de São Paulo entre os anos de 2001 e 2009. As amostras foram submetidas a RT-PCR seguido do sequenciamento da região G2 do gene G. A duplicação de 60 nt foi detectada em 104 (28.3%) das 367 amostras analisadas. De 2001 a 2004 a circulação do genótipo BA foi baixa, seguido de 85.4% (2005), 57.6% (2006), sem circulação (2007), 10% (2008) e 75% (2009) do total de amostras sequenciadas. As sequências foram comparadas com outras BA de diversos países do mundo. A análise filogenética preliminar dividiu as amostras brasileiras em 5 grupos (BA-I, BAII, BAIII, BAIV e BAVI), sendo que a maioria das amostras de 2005 a 2009 agruparam juntas na linhagem BA-IV, estabelecendo um grupo temporal e geográfico.

In order to study the epidemiology and evolution of the new genotype of HRSVB named BA characterized with a 60-nt duplication in the G protein we analyzed 4274 clinical samples collected from children hospitalized in University Hospital/USP and Santa Casa de Misericórdia Hospital, in São Paulo city, during 2001 to 2009. The samples were subject to RT-PCR followed by sequencing of the G2 region of the G gene. The 60 nt-duplication were detected in 104 (28.3%) of 367 sequencing samples. From 2001 to 2004 the circulation of the BA genotype was low, followed by 85.4% (2005), 57.6% (2006), no circulation (2007), 10% (2008) and 75% (2009) of total sequencing samples. Sequences were compared with G sequences with the 60 nt-duplication globally sampled. Preliminary phylogenetic analysis divided Brazilian samples into five clusters (BA-I, BAII, BAIII and BAVI and BAIV), and almost all samples from 2005 to 2009 were clustered together in BA-IV lineage, establishing temporal and geographical cluster.

Duplex-PCR assay for the detection of adenovirus and respiratory syncytial virus in nasopharyngeal samples

Human adenovirus (HAdV) and human respiratory syncytial virus (HRSV) are important etiologic agents of acute respiratory infections. In this study, a duplex polymerase chain reaction (PCR) assay was developed for the simultaneous detection of HAdV and HRSV in clinical samples. Sixty previously screened nasopharyngeal aspirates were used: 20 HAdV-positive, 20 HRSV-positive and 20 double-negative controls. Eight samples were positive for both viruses. The duplex PCR assay proved to be as sensitive and specific as single-target assays and also detected the mixed infections with certainty. The identification of both viruses in a single reaction offers a reduction in both cost and laboratory diagnostic time.

Vírus respiratório sincicial humano e metapneumovírus humano / Human respiratory syncitial vírus and human metapneumovirus

O Vírus respiratório sincicial humano (hRSV - human respiratory syncytial virus) e o Metapneumovírus humano (hMPV - human metapneumovirus) são os principais agentes etiológicos identificados nas infecções respiratórias agudas (IRAs). As IRAs representam importante causa de morbidade e mortalidade em crianças no mundo todo. hRSV e hMPV são membros da família Paramyxoviridae. São vírus envelopados, não-segmentados dotados de genoma de RNA de fita simples com sentido negativo. O hRSV é o agente viral melhor caracterizado neste grupo, associado à doença do trato respiratório inferior. Recentemente foi identificado um novo patógeno humano pertencente à subfamília Pneumovirinae, o hMPV, o qual possui similaridades com o hRSV, na sua organização genômica, estrutura viral, antigenicidade e sintomas clínicos. A subfamília Pneumovirinae contém dois gêneros: gênero Pneumovirus que contêm o hRSV, o RSV bovino (bRSV - bovine RSV), bem como os RSV ovino, caprino e o vírus da pneumonia murina, o segundo gênero Metapneumovirus que consiste do MPV aviário (aMPV - avian MPV) e hMPV. Neste trabalho, apresentamos uma breve revisão narrativa da literatura sobre aspectos importantes da biologia, epidemiologia e manifestações clínicas das infecções por estes dois vírus respiratórios.

The human respiratory syncytial virus (hRSV) and the human metapneumovirus (hMPV) are the main etiological agents of acute respiratory infections (ARIs). ARIs are an important cause of childhood morbidity and mortality worldwide. The hRSV and hMPV are members of the Paramyxoviridae family. They are enveloped, non-segmented viruses, with negative-sense single stranded genomes. The respiratory syncytial virus (hRSV) is the best characterized viral agent of this group, associated with respiratory diseases in the lower respiratory tract. Recently, a new human pathogen belonging to the subfamily Pneumovirinae was identified, the human metapneumovirus (hMPV), which is structurally similar to the hRSV in terms of genomic organization, viral structure, antigenicity, and clinical symptoms. The subfamily Pneumovirinae contains two genera: genus Pneumovirus contains the hRSV, the bovine RSV (bRSV), as well as the ovine and caprine RSV and pneumonia virus of mice, the second genus Metapneumovirus, consists of the avian MPV (aMPV) and hMPV. In this study, we present a brief review of the literature on important aspects of the biology, epidemiology, and clinical manifestations of infections by two respiratory viruses.