A host transcriptional signature for presymptomatic detection of infection in humans exposed to influenza H1N1 or H3N2.

There is great potential for host-based gene expression analysis to impact the early diagnosis of infectious diseases. In particular, the influenza pandemic of 2009 highlighted the challenges and limitations of traditional pathogen-based testing for suspected upper respiratory viral infection. We inoculated human volunteers with either influenza A (A/Brisbane/59/2007 (H1N1) or A/Wisconsin/67/2005 (H3N2)), and assayed the peripheral blood transcriptome every 8 hours for 7 days. Of 41 inoculated volunteers, 18 (44%) developed symptomatic infection. Using unbiased sparse latent factor regression analysis, we generated a gene signature (or factor) for symptomatic influenza capable of detecting 94% of infected cases. This gene signature is detectable as early as 29 hours post-exposure and achieves maximal accuracy on average 43 hours (p = 0.003, H1N1) and 38 hours (p-value = 0.005, H3N2) before peak clinical symptoms. In order to test the relevance of these findings in naturally acquired disease, a composite influenza A signature built from these challenge studies was applied to Emergency Department patients where it discriminates between swine-origin influenza A/H1N1 (2009) infected and non-infected individuals with 92% accuracy. The host genomic response to Influenza infection is robust and may provide the means for detection before typical clinical symptoms are apparent.

Pandémie H1N1 : comparaison Canada-France des enfants hospitalisés en Soins Intensifs Pédiatriques Étude épidémiologique descriptive à partir de 2 cohortes nationales

Rationnel : La pandémie de grippe A(H1N1)pdm09 a induit un grand nombre d’hospitalisation d’enfants en soins intensifs pédiatriques (SIP). L’objectif de cette étude a été de comparer l’incidence et la mortalité des enfants admis en SIP durant l’automne 2009 entre le Canada et la France, deux pays qui diffèrent essentiellement par l’immunisation de la population contre ce virus (première vague en été et taux de couverture vaccinale supérieur à 50% au Canada ; pas de vague estivale et couverture vaccinale de 18% en France). Méthodes : Nous avons comparé deux cohortes nationales qui ont inclue tous les patients avec une infection A(H1N1)pdm09 documentée, admis en SIP au Canada et en France entre le 1er Octobre 2009 et le 31 janvier 2010. Résultats : Au Canada, 160 enfants (incidence=2,63/100000 enfants) en 6 semaines ont été hospitalisés en SIP comparé aux 125 enfants (incidence=1,15/100000 enfants) en 11 semaines en France (p<0,001). Le taux de vaccination avant l’admission était inférieur à 25% parmi les enfants en situation critique dans les deux pays. La gravité à l’admission en SIP et le taux de mortalité ont été similaires au Canada et en France (4,4% en France vs 6,5% au Canada, p=0,45, respectivement). Au Canada, la vaccination contre le virus H1N1pdm09 a été associée avec une diminution du recours à la ventilation invasive (Odd Ratio 0.30, intervalle de confiance à 95% [0,11-0,83], p=0,02). Au Canada comparé à la France, les durées médianes de séjour en SIP et de ventilation invasive ont été plus courtes (2,9 vs 3 jours, p=0,03 et 4 vs 6 jours, p=0,02, respectivement). Conclusion : Les enfants canadiens et français critiquement malades ont été beaucoup moins nombreux à recevoir le vaccin contre le virus influenza A (H1N1)pdm09 en comparaison avec l’ensemble des enfants dans ces deux populations. Au Canada, où la couverture vaccinale a été élevée, le risque d’avoir une détresse respiratoire sévère était moins important parmi les enfants en situation critique ayant été vaccinés avant l’admission.

Transcriptional approach to study porcine tracheal epithelial cells individually or dually infected with swine influenza virus and Streptococcus suis

Background: Swine influenza is a highly contagious viral infection in pigs affecting the respiratory tract that can have significant economic impacts. Streptococcus suis serotype 2 is one of the most important post-weaning bacterial pathogens in swine causing different infections, including pneumonia. Both pathogens are important contributors to the porcine respiratory disease complex. Outbreaks of swine influenza virus with a significant level of co-infections due to S. suis have lately been reported. In order to analyze, for the first time, the transcriptional host response of swine tracheal epithelial (NPTr) cells to H1N1 swine influenza virus (swH1N1) infection, S. suis serotype 2 infection and a dual infection, we carried out a comprehensive gene expression profiling using a microarray approach. Results: Gene clustering showed that the swH1N1 and swH1N1/S. suis infections modified the expression of genes in a similar manner. Additionally, infection of NPTr cells by S. suis alone resulted in fewer differentially expressed genes compared to mock-infected cells. However, some important genes coding for inflammatory mediators such as chemokines, interleukins, cell adhesion molecules, and eicosanoids were significantly upregulated in the presence of both pathogens compared to infection with each pathogen individually. This synergy may be the consequence, at least in part, of an increased bacterial adhesion/invasion of epithelial cells previously infected by swH1N1, as recently reported. Conclusion: Influenza virus would replicate in the respiratory epithelium and induce an inflammatory infiltrate comprised of mononuclear cells and neutrophils. In a co-infection situation, although these cells would be unable to phagocyte and kill S. suis, they are highly activated by this pathogen. S. suis is not considered a primary pulmonary pathogen, but an exacerbated production of proinflammatory mediators during a co-infection with influenza virus may be important in the pathogenesis and clinical outcome of S. suis-induced respiratory diseases.

Mutations in H5N1 influenza virus hemagglutinin that confer binding to human tracheal airway epithelium

The emergence in 2009 of a swine-origin H1N1 influenza virus as the first pandemic of the 21st Century is a timely reminder of the international public health impact of influenza viruses, even those associated with mild disease. The widespread distribution of highly pathogenic H5N1 influenza virus in the avian population has spawned concern that it may give rise to a human influenza pandemic. The mortality rate associated with occasional human infection by H5N1 virus approximates 60%, suggesting that an H5N1 pandemic would be devastating to global health and economy. To date, the H5N1 virus has not acquired the propensity to transmit efficiently between humans. The reasons behind this are unclear, especially given the high mutation rate associated with influenza virus replication. Here we used a panel of recombinant H5 hemagglutinin (HA) variants to demonstrate the potential for H5 HA to bind human airway epithelium, the predominant target tissue for influenza virus infection and spread. While parental H5 HA exhibited limited binding to human tracheal epithelium, introduction of selected mutations converted the binding profile to that of a current human influenza strain HA. Strikingly, these amino-acid changes required multiple simultaneous mutations in the genomes of naturally occurring H5 isolates. Moreover, H5 HAs bearing intermediate sequences failed to bind airway tissues and likely represent mutations that are an evolutionary "dead end." We conclude that, although genetic changes that adapt H5 to human airways can be demonstrated, they may not readily arise during natural virus replication. This genetic barrier limits the likelihood that current H5 viruses will originate a human pandemic.

A single amino acid in the HA of pH1N1 2009 influenza virus affects cell tropism in human airway epithelium, but not transmission in ferrets

The first pandemic of the 21(st) century, pandemic H1N1 2009 (pH1N1 2009), emerged from a swine-origin source. Although human infections with swine-origin influenza have been reported previously, none went on to cause a pandemic or indeed any sustained human transmission. In previous pandemics, specific residues in the receptor binding site of the haemagglutinin (HA) protein of influenza have been associated with the ability of the virus to transmit between humans. In the present study we investigated the effect of residue 227 in HA on cell tropism and transmission of pH1N1 2009. In pH1N1 2009 and recent seasonal H1N1 viruses this residue is glutamic acid, whereas in swine influenza it is alanine. Using human airway epithelium, we show a differential cell tropism of pH1N1 2009 compared to pH1N1 2009 E227A and swine influenza suggesting this residue may alter the sialic acid conformer binding preference of the HA. Furthermore, both pH1N1 2009 E227A and swine influenza multi-cycle viral growth was found to be attenuated in comparison to pH1N1 2009 in human airway epithelium. However this altered tropism and viral growth in human airway epithelium did not abrogate respiratory droplet transmission of pH1N1 2009 E227A in ferrets. Thus, acquisition of E at residue 227 was not solely responsible for the ability of pH1N1 2009 to transmit between humans.

Severe novel influenza A (H1N1) infection in cancer patients

Patients and methods: Clinical data from all patients admitted with acute respiratory failure due to novel viral H1N1 infection were reviewed. Lung tissue was submitted for viral and bacteriological analyses by real-time RT-PCR, and autopsy was conducted on all patients who died. Results: Eight patients were admitted, with ages ranging from 55 to 65 years old. There were five patients with solid organ tumors (62.5%) and three with hematological malignancies (37.5%). Five patients required mechanical ventilation and all died. Four patients had bacterial bronchopneumonia. All deaths occurred due to multiple organ failure. A milder form of lung disease was present in the three cases who survived. Lung tissue analysis was performed in all patients and showed diffuse alveolar damage in most patients. Other lung findings were necrotizing bronchiolitis or extensive hemorrhage. Conclusions: H1N1 viral infection in patients with cancer can cause severe illness, resulting in acute respiratory distress syndrome and death. More data are needed to identify predictors of unfavorable evolution in these patients.

Influenza virus vaccination in kidney transplant recipients: serum antibody response to different immunosuppressive drugs

Introduction: This study prospectively accessed the immune response to the inactivated influenza vaccine in renal transplant recipients receiving either azathioprine or mycophenolate mofetil (MMF). Side effects were investigated. Methods: Sixty-nine patients received one dose of inactivated trivalent influenza vaccine. Antihemagglutinin (HI) antibody response against each strain was measured before and one to six months after vaccination. Results: Geometric mean HI antibody titers for H1N1 and H3N2 strains increased from 2.57 and 2.44 to 13.45 (p = 0.001) and 7.20 (p < 0.001), respectively. Pre- and post-vaccination protection rates for H1N1 and H3N2 increased from 8.7% to 49.3% (p < 0.001); and 36.3% (p < 0.001) and seroconversion rates were 36% and 25.3%, respectively. There was no response to influenza B. The use of MMF reduced the H1N1 and H3N2 protection rates and the seroconversion rate for the H1N1 strain when compared with the use of azathioprine, and subjects transplanted less than 87 months also had inferior antibody response. Adverse events were mild and there were no change on renal function post-vaccination. Conclusion: Renal transplant patients vaccinated against influenza responded with antibody production for in. uenza A virus strains, but not for in. uenza B. Use of MMF and shorter time from transplantation decreased the immune response to the vaccine.

Caracterização da criança com infecção por H1N1 e da intervenção fisioterapêutica: relato de casos em série

A infecção por influenza A, subtipo H1N1, é considerada uma doença viral aguda e importante causa de doença respiratória. As crianças foram consideradas como um dos grupos de risco, devido à imaturidade do sistema imunológico. A fisioterapia pode atuar na prevenção e no tratamento das doenças respiratórias em crianças, utilizando-se de diversas técnicas e procedimentos terapêuticos. Assim, o presente estudo teve como objetivo descrever o atendimento de fisioterapia em crianças internadas em um hospital-escola com diagnóstico/suspeita de infecção por H1N1. Estudo do tipo descritivo de relato de casos em série realizado por meio de análise de prontuário. Investigados 14 prontuários de crianças com mediana de idade de 1 ano e 5 meses, 10 do sexo masculino e 4 do feminino. A manifestação clínica mais frequente foi esforço respiratório, seguida por tosse, febre, coriza, vômitos e dor no corpo. As técnicas de fisioterapia mais realizadas foram respiratórias, seguidas de cinesioterapia, orientações para os pais, suporte de oxigênio e estímulo ao (DNPM). O tempo médio de internação foi de 4,57 dias. Algumas crianças somavam ao diagnóstico/suspeita de infecção por H1N1 diagnósticos e doenças associadas. A fisioterapia realizada foi principalmente no sentido de melhorar a mecânica respiratória por meio de técnicas desobstrutivas e outras condutas respiratórias, porém preocupação com mobilizações, orientações para os pais e desenvolvimento motor também foi destacada.

Triplet entropy analysis of hemagglutinin and neuraminidase sequences measures influenza virus phylodynamics

The influenza virus has been a challenge to science due to its ability to withstand new environmental conditions. Taking into account the development of virus sequence databases, computational approaches can be helpful to understand virus behavior over time. Furthermore, they can suggest new directions to deal with influenza. This work presents triplet entropy analysis as a potential phylodynamic tool to quantify nucleotide organization of viral sequences. The application of this measure to segments of hemagglutinin (HA) and neuraminidase (NA) of H1N1 and H3N2 virus subtypes has shown some variability effects along timeline, inferring about virus evolution. Sequences were divided by year and compared for virus subtype (H1N1 and H3N2). The nonparametric Mann-Whitney test was used for comparison between groups. Results show that differentiation in entropy precedes differentiation in GC content for both groups. Considering the HA fragment, both triplet entropy as well as GC concentration show intersection in 2009, year of the recent pandemic. Some conclusions about possible flu evolutionary lines were drawn. © 2013 Elsevier B.V.

Caracterização dos genes codificadores da hemaglutinina e PB2 do vírus Influenza A (H1N1) pandêmico isolado na mesorregião metropolitana de Belém

A recente pandemia de gripe de 2009/2010 causada pelo vírus A (H1N1) pandêmico mostrou um perfil de gravidade diferente da gripe sazonal, pois um percentual considerável de casos graves e fatais ocorreu em indivíduos adultos jovens, sem comorbidade. A virulência dos vírus Influenza A (H1N1) pandêmico resulta de interações protéicas complexas e depende essencialmente de alguns genes virais. O objetivo deste estudo foi caracterizar os genes codificadores da hemaglutinina (H1) e polimerase básica 2 (PB2) do vírus Influenza A (H1N1) pandêmico mediante a obtenção de cepas provenientes de pacientes com gripe procedente da mesorregião metropolitana de Belém-PA. O tamanho amostral foi constituído de 87 amostras aleatórias de ambos os sexos de 0 a 96 anos, com síndrome respiratória aguda grave (SRAG) sem nenhuma comorbidade relatada, no período de maio de 2009 a agosto de 2010. As amostras foram isoladas em cultura de célula MDCK e analisadas por técnicas de biologia molecular que compreenderam três etapas principais: a) extração do RNA viral (RNAv) a partir do sobrenadante celular; b) amplificação do RNAv pela técnica de Reação em Cadeia mediada pela Polimerase precedida de Transcrição Reversa (RT-PCR); c) sequenciamento completo dos genes codificadores da H1 e PB2. Das 87 cepas amplificadas pelo RT-PCR, em 82 tornou-se possível a obtenção e análise de sequências para o gene HA, enquanto que de 81 amostras virais obteve-se sequências para o gene PB2. A análise comparativa das sequências obtidas com a sequência da cepa vacinal (A/California/07/2009(H1N1)) revelou substituições aminoacídicas na HA (P83S; D97N; S203T; D222G; Q293H e I321V) e na PB2 (K340N; K526R e M631L), no entanto sem associação a hospitalização. Ao nível de substituição na HA, a D97N isolada ou associada com a S203T, foi detectada com mais frequência na primeira onda. Já ao nível da PB2 a substituição K526R foi mais encontrada em cepas que circularam na primeira onda, enquanto que, a M631L foi mais evidenciada na segunda. A substituição D222G na HA só foi encontrada em casos de óbitos. Por fim, observou-se uma tendência de alterações nos sítios antigênicos da HA. Sendo assim, a contínua vigilância genética e antigênica do vírus Influenza A (H1N1) pdm em circulação, bem como o compartilhamento de informações é de extrema importância para a melhor recomendação possível para os vírus que entram na composição vacinal evitando assim maior risco de epidemias severas no futuro.

Perfil genotípico de resistência do vírus Influenza A (H1N1) pandêmico aos inibidores da neuraminidase em pacientes procedentes da mesorregião de Belém no período de maio de 2009 a maio de 2012

O vírus Influenza é o responsável pela gripe, uma doença que ocasiona milhões de mortes e hospitalizações todos os anos. Nas infecções severas, especialmente em pessoas com risco para complicações, os antivirais tornam-se os principais meios para o manejo clínico, merecendo especial destaque os inibidores da neuraminidase (INAs). De fato, na pandemia de 2009 a Organização Mundial da Saúde (OMS) recomendou o uso do oseltamivir para o tratamento dos doentes. Porém, devido à evolução genética viral, surgiram cepas com mutações no gene codificador da neuraminidase (NA) responsáveis por substituições aminoacídicas que levam à resistência aos fármacos INAs. Assim, a OMS passou a recomendar a vigilância de resistência genotípica para os vírus Influenza. Este trabalho teve como objetivos verificar a ocorrência de mutações no gene codificador da NA dos vírus Influenza A (H1N1) pandêmico que possam estar relacionadas à resistência aos INAs em cepas circulantes na mesorregião metropolitana de Belém no período de maio de 2009 a maio de 2012 e analisar, através da modelagem de proteínas, as substituições aminoacídicas da NA que possam estar influenciando na conformação protéica. Durante o período de estudo, foram recebidas no Laboratório de Vírus Respiratórios 2619 amostras clínicas de pacientes que apresentavam sinais e sintomas de infecção respiratória aguda com até cinco dias de evolução. Para a detecção do genoma viral foi feita a extração do RNA viral, seguida de RT-PCR em tempo real utilizando marcadores específicos para Influenza A H1N1pdm, resultando em 744 (28,4%) positivas. Parte das amostras positivas foram então inoculadas em células MDCK. Para as amostras isoladas em cultura de células, foi feita uma nova extração do RNA viral seguida de uma RT-PCR e semi-nested (PCR) utilizando iniciadores específicos para o gene NA, e posterior análise em sequenciador automático ABI Prism 3130xl (Applied Biosystems). A modelagem molecular da NA foi realizada através dos softwares SWISS-MODEL, MODELLER 9.10, PROCHECK, VERIFY3D e PYMOL. A análise parcial das sequências da neuraminidase nas amostras sequenciadas mostrou que não houve a circulação de cepas de vírus H1N1pdm com a mutação H275Y, a principal envolvida na resistência ao oseltamivir. Porém, em duas amostras foi identificada a substituição D199N que já foi relatada em vários estudos mostrando uma possível associação com o aumento da resistência ao oseltamivir. As amostras de 2012 apresentaram duas substituições (V241I e N369K) que estão relacionadas com um possível papel na compensação dos efeitos negativos causados pela mutação H275Y. A modelagem molecular mostrou que na mutação D199N houve uma alteração na estrutura da proteína NA próxima ao sítio de ligação ao antiviral. A análise filogenética revelou que as amostras de 2012 formaram um cluster isolado, demonstrando uma variação muito mais temporal do que geográfica. Este representa o primeiro estudo de resistência dos vírus Influenza H1N1pdm na mesorregião metropolitana de Belém, representando um importante instrumento para que os profissionais de saúde adotem estratégias mais eficazes no manejo da doença e no desenvolvimento de novos fármacos anti-influenza.

Caratterizzazione genomica di virus influenzali suini in Italia mediante next generation sequencing

I sottotipi H1N1, H1N2 e H3N2 di influenza A virus sono largamente diffusi nella popolazione suina di tutto il mondo. Nel presente lavoro è stato sviluppato un protocollo di sequenziamento di c.d. nuova generazione, su piattaforma Ion Torrent PGM, idoneo per l’analisi di tutti i virus influenzali suini (SIV). Per valutare l’evoluzione molecolare dei SIV italiani, sono stati sequenziati ed analizzati mediante analisi genomica e filogenetica un totale di sessantadue ceppi di SIV appartenenti ai sottotipi H1N1, H1N2 e H3N2, isolati in Italia dal 1998 al 2014. Sono stati evidenziati in sei campioni due fenomeni di riassortimento: tutti i SIV H1N2 esaminati presentavano una neuraminidasi di derivazione umana, diversa da quella dei SIV H1N2 circolanti in Europa, inoltre l’emoagglutinina (HA) di due isolati H1N2 era originata dal riassortimento con un SIV H1N1 avian-like. L’analisi molecolare dell’HA ha permesso di rivelare un’inserzione di due amminoacidi in quattro SIV H1N1 pandemici e una delezione di due aminoacidi in quattro SIV H1N2, entrambe a livello del sito di legame con il recettore cellulare. E’ stata inoltre evidenziata un’elevata omologia di un SIV H1N1 con ceppi europei isolati negli anni ’80, suggerendo la possibile origine vaccinale di questo virus. E’ stato possibile, in aggiunta, applicare il nuovo protocollo sviluppato per sequenziare un virus influenzale aviare altamente patogeno trasmesso all’uomo, direttamente da campione biologico. La diversità genetica nei SIV esaminati in questo studio conferma l’importanza di un continuo monitoraggio della costellazione genomica dei virus influenzali nella popolazione suina.

H1N1 outbreak in a Swiss military boot camp--observations and suggestions

The A(H1N1)pdm09 influenza virus is a highly contagious pathogen which caused the 2009 influenza pandemic. The virus is known to affect mainly younger people and may be a problem in crowded living conditions. The aim of the study was to describe a major A(H1N1)pdm09 outbreak in a Swiss military boot camp and to develop suggestions for similar future situations.

Persistent and compartmentalised disruption of dendritic cell subpopulations in the lung following influenza A virus infection.

Immunological homeostasis in the respiratory tract is thought to require balanced interactions between networks of dendritic cell (DC) subsets in lung microenvironments in order to regulate tolerance or immunity to inhaled antigens and pathogens. Influenza A virus (IAV) poses a serious threat of long-term disruption to this balance through its potent pro-inflammatory activities. In this study, we have used a BALB/c mouse model of A/PR8/34 H1N1 Influenza Type A Virus infection to examine the effects of IAV on respiratory tissue DC subsets during the recovery phase following clearance of the virus. In adult mice, we found differences in the kinetics and activation states of DC residing in the airway mucosa (AMDC) compared to those in the parenchymal lung (PLDC) compartments. A significant depletion in the percentage of AMDC was observed at day 4 post-infection that was associated with a change in steady-state CD11b+ and CD11b- AMDC subset frequencies and significantly elevated CD40 and CD80 expression and that returned to baseline by day 14 post-infection. In contrast, percentages and total numbers of PLDC were significantly elevated at day 14 and remained so until day 21 post-infection. Accompanying this was a change in CD11b+and CD11b- PLDC subset frequencies and significant increase in CD40 and CD80 expression at these time points. Furthermore, mice infected with IAV at 4 weeks of age showed a significant increase in total numbers of PLDC, and increased CD40 expression on both AMDC and PLDC, when analysed as adults 35 days later. These data suggest that the rate of recovery of DC populations following IAV infection differs in the mucosal and parenchymal compartments of the lung and that DC populations can remain disrupted and activated for a prolonged period following viral clearance, into adulthood if infection occurred early in life.