Detection of Human Bocavirus mRNA in Respiratory Secretions Correlates with High Viral Load and Concurrent Diarrhea

Human bocavirus (HBoV) is a parvovirus recently identified in association with acute respiratory infections (ARI). Despite its worldwide occurrence, little is known on the pathogenesis of HBoV infections. In addition, few systematic studies of HBoV in ARI have been conducted in Latin America. Therefore, in order to test whether active viral replication of human bocavirus is associated with respiratory diseases and to understand the clinical impact of this virus in patients with these diseases, we performed a 3-year retrospective hospital-based study of HBoV in outpatients and inpatients with symptoms of Acute Respiratory Infections (ARI) in Brazil. Nasopharyngeal aspirates (NPAs) from 1015 patients with respiratory symptoms were tested for HBoV DNA by PCR. All samples positive for HBoV were tested by PCR for all other respiratory viruses, had HBoV viral loads determined by quantitative real time PCR and, when possible, were tested by RT-PCR for HBoV VP1 mRNA, as evidence of active viral replication. HBoV was detected in 4.8% of patients, with annual rates of 10.0%, 3.0% and 3.0% in 2005, 2006 and 2007, respectively. The range of respiratory symptoms was similar between HBoV-positive and HBoV-negative ARI patients. However, a higher rate of diarrhea was observed in HBoV-positive patients. High HBoV viral loads (>108 copies/mL) and diarrhea were significantly more frequent in patients with exclusive infection by HBoV and in patients with detection of HBoV VP1 mRNA than in patients with viral co-infection, detected in 72.9% of patients with HBoV. In summary, our data demonstrated that active HBoV replication was detected in a small percentage of patients with ARI and was correlated with concurrent diarrhea and lack of other viral co-infections

Respiratory infections by human bocavirus: molecular and clinical features.

O bocavirus humano (HBoV) é um parvovirus recentemente identificado em associação com a presença de sintomas de infecção do trato respiratório. Esse vírus possui um genoma de aproximadamente 5217 nucleotídeos que contém 3 open reading frames que codificam 4 proteínas (NS1, NP-1, VP-1 e VP-2). HBoV tem sido detectado em amostras respiratórias de diversas partes do mundo, incluindo Austrália, América do Norte, Europa, Ásia e África, o que sugere uma distribuição global desse vírus. Entretanto, nenhum estudo longitudinal de HBoV em amostras respiratórias foi realizado na América Latina. Dessa forma, nós realizamos um estudo prospectivo de HBoV em lavados nasofaríngeos (LFNs) coletados de pacientes com sintomas de infecção do trato respiratório (IRA) atendidos em um hospital universitário de Ribeirão Preto, SP e em um hospital universitário de Salvador, BA no período entre 2005 a 2007. 1288 LFNs de 1217 pacientes foram encaminhados ao laboratório de virologia e foram testados por PCR para HBoV. Desses pacientes, 962 eram menores de 5 anos e 177 eram maiores de 5 anos. Além disso, também foram analisados 50 LFNs de crianças menores de 5 anos que não tinham sintomas respiratórios. Todas as amostras positivas para HBoV foram testadas para todos os outros vírus respiratórios, incluindo o vírus sincicial respiratório (HRSV), rinovirus humano (HRV), influenza humano (HFLU), metapneumovirus humano (HMPV), parainfluenza humano (HPIV), coronavirus humano (HCoV) e adenovirus humano (HAdV). A carga viral de HBoV foi determinada por PCR em tempo real em todas as amostras positivas e o genoma completo de 19 amostras de HBoV foi seqüenciado. Com intuito, de fazer um levantamento sorológico e determinar sítios replicativos de HBoV, nós ainda clonamos e expressamos em S. cerevisae (Y258) o gene de VP2, que codifica uma das proteínas do capsídeo viral. A prevalência desse vírus foi de 4,8% em crianças menores de cinco anos e de 1% em pacientes maiores de cinco anos. HBoV não foi detectado em crianças sem sintomas. Dos 259 pacientes analisados em 2005, 25 (10%) foram positivos para HBoV. Esse vírus circulou mais frequentemente em abril, mês de maior incidência do HRSV. Em 2006, HBoV foi detectado em apenas 10 LFNs de 334 (3%) amostras testadas, sem qualquer pico de freqüência. Em 2007 HBoV foi detectado em 13 de 552 (2%) amostras, com uma freqüência de detecção um pouco maior em junho e julho. Os sintomas mais comumente observados foram rinorréia, tosse, febre e chiado, que foram observados geralmente em mais de 50% dos casos positivos para HBoV. Não houve uma diferença significativa na prevalência desses sintomas entre as crianças positivas e negativas para HBoV. Entretanto, foi observada uma maior freqüência de diarréia entre as crianças com esse vírus. Nesse estudo também foi documentado uma alta freqüência de co-infecções virais entre os pacientes com HBoV. Os vírus mais frequentemente associados com o bocavirus humano foram: HRSV, HRV e HAdV. Além disso, foi detectado uma maior carga viral media e uma maior freqüência de diarréia nos 15 pacientes com infecção exclusiva por HBoV do que nos pacientes com co-infecção. Esses resultados mostraram que HBoV pode alcançar títulos enormes (tão grandes como1014/mL) em LFNs de pacientes com sintomas respiratórios e que isso é associado a de diarréia. O seqüenciamento do genoma inteiro de HBoV realizado nesse estudo indica que a divergência genômica entre as amostras desse vírus é muito pequena. Como conclusão, nós demonstramos que HBoV circula e é detectado em associação com sintomas de infecção respiratória e diarréia no Brasil. Novos estudos, com um longo acompanhamento em diferentes populações serão necessários para determinar a sazonalidade e o real impacto clínico de HBoV em nosso país.Human bocavirus (HBoV) is a parvovirus recently identified in association with respiratory tract infections. HBoV 5217 nt genome contains 3 open reading frames encoding four proteins (NS1, NP-1, VP-1 and VP-2). HBoV has been reported in respiratory samples from children in several parts of the world (including Australia, North America, Europe, Asia, and Africa), suggesting that the virus circulates worldwide. However, no longitudinal studies of HBoV in respiratory samples have been reported in Latin America. We report a prospective study of HBoV in nasopharyngeal aspirates (NPAs) collected from patients seen for acute respiratory tract infections (ARI) at the University of Sao Paulo Hospital in Ribeirao Preto, southeast Brazil and at the University Hospital in Salvador, Brazil. 1288 NPAs from 1217 patients was submitted to the virology lab for respiratory virus detection from 2005 to 2007 and were screened for HBoV by polymerase chain reaction (PCR), whom 962 were under 5 years of age and 177 were older than 5 years. In addition, NPAs from 50 children under 12 years without IRA was also tested to HBoV for PCR. All samples positive of HBoV was tested for others respiratory virus, including the human respiratory syncitial virus (HRSV), human rhinovirus (HRV), human influenza (HFLU), human metapneumovirus (HMPV), human parainfluenza virus (HPIV), human coronavirus (HCoV) and human adenovirus (HAdV). These samples had their HBoV viral load determined by real time PCR and the viral entire genome of nineteen HBoV sample was sequenced. We also cloned and expressed in S. cerevisae (Y258) the gene of VP2, one protein of viral capside. The prevalence of this virus was of 4,8% in children under 5 years and 1% in adults, both with IRA. HBoV was not found on the patients without symptoms. In 2005, of the 259 patients tested, 25 (10%) were positive for HBoV. Interestingly, the virus circulated more frequently in April, the month of peak activity of respiratory HRSV. In 2006 HBoV was detected in only 10 NPAs out of 334 samples (3%) tested, without any notable peak of frequency. In 2007 HBoV was detected in 13 out of 552 (2%) tested samples with little higher frequency of detection in June an July. Rhinorrhea, cough, and wheezing were observed in more than 50% of the HBoV-positive children, and no obvious respiratory clinical differences were noted between HBoV-positive and negative children. However, was noted a higher frequency of diarrhea on HBoV-positive patients. In this study was also observed a larger frequency (71%) of viral coinfections between the HBoV-positive patients. The respiratory viruses more frequently associated with human bocavirus were: HRSV, HRV and HAdV. Interestingly, on the 15 HBoV-alone patients was observed a higher viral load and a higher prevalence of diarrhea than HBoV-coinfection patients. These results showed that this virus can reach enormous titles (like 1014) in NPAs from patients with respiratory infection symptoms and this is associated with diahhrea. The entire genome sequencing of HBoV of our study indicates that the genetic divergence between the HBoV lineages is small. In conclusion, we demonstrated that HBoV circulates and is detected in association with respiratory symptoms and diarrhea in Brazil. Long term surveillance will be needed to determine whether or not an HBoV season occurs and what is the real clinical impact of this virus in our country

A lipidomics approach in the characterization of zika-infected mosquito cells: potential targets for breaking the transmission cycle

Recent outbreaks of Zika virus in Oceania and Latin America, accompanied by unexpected clinical complications, made this infection a global public health concern. This virus has tropism to neural tissue, leading to microcephaly in newborns in a significant proportion of infected mothers. The clinical relevance of this infection, the difficulty to perform accurate diagnosis and the small amount of data in literature indicate the necessity of studies on Zika infection in order to characterize new biomarkers of this infection and to establish new targets for viral control in vertebrates and invertebrate vectors. Thus, this study aims at establishing a lipidomics profile of infected mosquito cells compared to a control group to define potential targets for viral control in mosquitoes. Thirteen lipids were elected as specific markers for Zika virus infection (Brazilian strain), which were identified as putatively linked to the intracellular mechanism of viral replication and/or cell recognition. Our findings bring biochemical information that may translate into useful targets for breaking the transmission cycle1110CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQCOORDENAÇÃO DE APERFEIÇOAMENTO DE PESSOAL DE NÍVEL SUPERIOR - CAPESFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPSem informaçãoSem informação2011/50400-0; 2015/06809-1; 2014/00084-2; 2014/00302-0; 2013/11343-

Hemograms and serial hemogram-derived ratios in survivors and non-survivors of COVID-19 in Campinas, Brazil

Introduction: The hemogram and hemogram-derivative ratios (HDRs) are becoming markers of the severity and mortality of COVID-19. We evaluated the hemograms and serial weekly HDRs [neutrophil-lymphocyte ratio (NLR), monocyte-lymphocyte ratio (MLR), platelet-lymphocyte ratio (PLR), neutrophil-platelet ratio (NPR) and systemic immune-inflammatory index (SII)] in the survivors and non-survivors of COVID-19. Methods: We retrospectively reviewed the medical notes and serial hemograms of real-time reverse-transcription polymerase chain reaction (RT-PCR)-confirmed COVID-19 adults hospitalized from April 2020 to March 2021 from the time of diagnosis to the 3rd week of diagnosis. Results: Of the 320 adults, 257 (80.3%) were survivors and had a lower mean age than the non-survivors (57.73 vs. 64.65 years, p < 0.001). At diagnosis, the non-survivors had lower hematocrit (p = 0.021), and lymphocyte (p = 0.002) and basophil (p = 0.049) counts and the hematocrit showed a p-value (Is this what you meant???) of 0.021); higher NLR (p < 0.001), PLR (p = 0.047), NPR (p = 0.022) and SII (p = 0.022). Using general linear models, the survivors and non-survivors showed significant variations with weekly lymphocyte count (p < 0.001), neutrophil count (p = 0.005), NLR (p = 0.009), MLR (p = 0.010) and PLR (p = 0.035). All HDRs remained higher in the non-survivors in the 2nd week and 3rd week of diagnosis and the HDRs were higher in the intubated patients than in the non-intubated patients. The NLR and SII were more efficient predictors of mortality in COVID-19 patients. Conclusions: This study shows that serial lymphocyte and neutrophil counts, NLR, PLR, MLR, NPR and SII could serve as good and easily accessible markers of severity and predictors of outcomes in COVID-19 patients and should be used for the monitoring of treatment response

Antibody cross-reactivity and evidence of susceptibility to emerging Flaviviruses in the dengue-endemic Brazilian Amazon

Objectives: Several Flaviviruses can co-circulate. Pre-existing immunity to one virus can modulate the response to a heterologous virus; however, the serological cross-reaction between these emerging viruses in dengue virus (DENV)-endemic regions are poorly understood. Methods: A cross-sectional study was performed among the residents of Manaus city in the state of Amazonas, Brazil. The serological response was assessed by hemagglutination inhibition assay (HIA), enzyme-linked immunosorbent assay, and neutralization assay. Results: A total of 74.52% of the participants were immunoglobulin G-positive (310/416), as estimated by lateral flow tests. Overall, 93.7% of the participants were seropositive (419/447) for at least one DENV serotype, and the DENV seropositivity ranged between 84.8% and 91.0%, as determined by HIA. About 93% had antiyellow fever virus 17D-reactive antibodies, whereas 80.5% reacted to wild-type yellow fever virus. Zika virus (ZIKV) had the lowest seropositivity percentage (52.6%) compared with other Flaviviruses. Individuals who were DENV-positive with high antibody titers by HIA or envelope protein domain III enzyme-linked immunosorbent assay reacted strongly with ZIKV, whereas individuals with low anti-DENV antibody titers reacted poorly toward ZIKV. Live virus neutralization assay with ZIKV confirmed that dengue serogroup and ZIKV-spondweni serogroup are far apart; hence, individuals who are DENV-positive do not cross-neutralize ZIKV efficiently. Conclusion: Taken together, we observed a high prevalence of DENV in the Manaus-Amazon region and a varying degree of cross-reactivity against emerging and endemic Flaviviruses. Epidemiological and exposure conditions in Manaus make its population susceptible to emerging and endemic arboviruses

A Lipidomics Approach in the Characterization of Zika-Infected Mosquito Cells: Potential Targets for Breaking the Transmission Cycle

<div><p>Recent outbreaks of Zika virus in Oceania and Latin America, accompanied by unexpected clinical complications, made this infection a global public health concern. This virus has tropism to neural tissue, leading to microcephaly in newborns in a significant proportion of infected mothers. The clinical relevance of this infection, the difficulty to perform accurate diagnosis and the small amount of data in literature indicate the necessity of studies on Zika infection in order to characterize new biomarkers of this infection and to establish new targets for viral control in vertebrates and invertebrate vectors. Thus, this study aims at establishing a lipidomics profile of infected mosquito cells compared to a control group to define potential targets for viral control in mosquitoes. Thirteen lipids were elected as specific markers for Zika virus infection (Brazilian strain), which were identified as putatively linked to the intracellular mechanism of viral replication and/or cell recognition. Our findings bring biochemical information that may translate into useful targets for breaking the transmission cycle.</p></div

Scores plot between the first two principal components (PCs) selected.

<p>The explained variances are 33.5% for component 1 and 52.5% for component two.</p

Chemical images from MALDI-MSI showing the comparison between infected and uninfected cells.

<p>It is visually possible to assess the difference in lipid composition of ZIKV-specific characterized biomarkers.</p

Lipid markers elect by PLD-DA VIP score ≥ 1.5 and elucidated by MS/MS for <i>Aedes albopictus</i> C6/36 uninfected cells (Control group).

<p>Lipid markers elect by PLD-DA VIP score ≥ 1.5 and elucidated by MS/MS for <i>Aedes albopictus</i> C6/36 uninfected cells (Control group).</p

Semi-quantitative analysis of characteristic lipids showed that ZIKV-infected cells.

<p>The bars representing confidence interval of 95% (**** p<0.0001)</p