Can RSV-Associated Hospitalization in the First Year of Life be Predicted at Birth Among Infants Born at 32-35 Weeks Gestation?

Ryan, Venessa MJ

21 November 2012

This retrospective cohort study examined risk factors associated with RSV-associated hospitalization (RSV-H) among infants born 32 to 35 weeks gestational age in Nova Scotia. Results were used to develop a clinical instrument (RSV-H scoring tool) that would discriminate between infants at high, moderate and low risk for RSV-H. Identifying the highest-risk infants, (using baseline information to predict RSV-H in the first year of life), would help target cost effective prophylaxis by Palivizumab (Pz), an expensive RSV-specific monoclonal antibody. Significant risk factors, determined by multivariate logistics, included infants born in December, January or February, passive household smoke exposure and household crowding. The scoring tool produced similar RSV-H post-test probabilities (3.1% pre-test probability) between risk groups (5.5% vs. 5.8%) and was unable to target highest risk infants. The tool could be used as an educational guideline for health professionals, outlining the importance of significant risk factors for RSV-H to parents and caregivers.

Étude de la régulation du facteur de transcription NF-kB dans l'infection par le RSV

Martel, Alexis

02 1900

L’infection par le Virus Respiratoire Syncytial cause des affections pulmonaires aiguës en pédiatrie caractérisée par une réponse inflammatoire excessive médiée par la production de cytokines par les cellules épithéliales des voies aériennes. Les gènes codant pour ces cytokines sont régulés par le facteur de transcription NF-κB (p50/p65) dont l’activation est classiquement induite par la phosphorylation de son inhibiteur IκBα, ce qui permet l’accumulation de l’hétérodimère au noyau. Par contre, nous avons récemment identifié la phosphorylation en sérine 536 de la sous-unité p65 comme une autre étape essentielle à son activation lors de l’infection des AEC par RSV. Le travail présenté dans ce mémoire a permis de démontrer que l’inhibition de l’expression de RIG-I, de Cardif ou de TRAF6, 3 protéines impliquées dans la reconnaissance cellulaire des virus, conduit à l’inhibition de cette phosphorylation en réponse à RSV. Nous avons également établi à l’aide d’inhibiteurs pharmacologiques et d’ARNi que, parmi les diverses kinases connues pour phosphoryler p65 en réponse à divers stimulus, IKKα/β sont essentielles à cette phosphorylation lors d’une stimulation par RSV. Puisque TRAF6 est bien connu dans la littérature pour activer le complexe IKK, nous proposons que TRAF6, après reconnaissance de l’ARN viral de RSV par RIG-I, active le complexe IKK qui induit la phosphorylation de la sousunité p65 de NF-κB, permettant l’expression de gènes cibles. D’autre part, nous avions précédemment démontré que Nox2, un isoforme de NADPH oxydase, contrôle l’activation de NF-κB en régulant les phosphorylations de IκBα et p65. Nous montrons ici que l’inhibition de Nox2 réduit fortement l’activité du complexe kinase IKK. De plus, la présence au niveau basal de Nox2 est critique pour le niveau d’ARN messager de Cardif. Nous proposons donc que la régulation de la phosphorylation de p65 en ser536 par Nox2 soit via son effet sur Cardif en permettant la fonctionnalité de la voie RIG-I. / The infection by the Respiratory Syncytial Virus causes acute respiratory tract affections among children characterized by an excessive inflammatory response mediated by airway epithelial cells production of cytokines. The genes coding for theses cytokines are regulated by the transcription factor NF-κB (p50/p65) which is classically activated by phosphorylation of its inhibitor IκBα, permitting the nuclear accumulation of the heterodimer. The work presented in this master’s thesis allowed demonstrating that the inhibition of either RIG-I, Cardif or TRAF6, 3 proteins implicated in the cellular recognition of virus, leads to the inhibition of this phosphorylation in response to RSV. Moreover, we established with pharmacological inhibitors and siRNA that, among all kinases known to phosphorylate p65 in response to various stimulus, IKKα/β are essential to this phosphorylation in RSV stimulation. Since TRAF6 is a well-known IKK complex activator in the literature, we propose that TRAF6, after the recognition of the RSV viral RNA by RIG-I, activates the IKK complex witch induces the phosphorylation of the NF-κB subunit p65, allowing the expression of targets genes. Furthermore, we had previously demonstrated that Nox2, a NADPH oxydase isoform, controls the activation of NF-κB by regulating the phosphorylation of IκBα and p65. We show here that the inhibition of Nox2 by siRNA reduces strongly the activity of the IKK complex. Moreover, the basal level presence of Nox2 is critic for the messenger RNA level of Cardif. Thus, we propose that the Nox2 regulation of p65 ser536 is done by its effect on Cardif, which allows the integrity of the RIG-I pathway.

RSV

NF-kB

Nox2

RIG-I

Respiratory Syncytial Virus infection biases the immune response in favor of Th2: the role of Indoleamine 2, 3-dioxygenase

Ajamian, Farnam

Unknown Date

No description available.

Respiratory Syncytial Virus

Indoleamine 2, 3-dioxygenase

Asthma

RSV

IDO

CCL5

Allergy

Asthma, childhood exposures and genetics shape anti-viral cytokine responses in humans

Douville, Renee Nicole

11 September 2007

Respiratory virus infections are associated with asthma pathogenesis and exacerbations in children and adults. Unfortunately, it remains largely unknown whether innate and adaptive T cell anti-viral immunity differs in allergic disease versus health. Here, we established a short-term primary cell culture system using human peripheral blood mononuclear cells (PBMC) optimized for measuring immune responses to reovirus, respiratory syncytial virus (RSV) and metapneumovirus (MPV) based on virus-specific cytokine and chemokine production. The prevalence and intensity of innate and adaptive responses in children and adult populations was addressed. Using this in vitro model of human anti-viral immunity, we tested our global hypothesis that asthmatics mount anti-viral cytokine responses to respiratory viruses that differ from those of healthy individuals. MPV and RSV, although both ubiquitous and leading to very high levels of infection, seroconversion and clinically similar presentation in the population, evoke distinct innate and adaptive T cell-dependent cytokine responses. Reovirus induced exceptionally strong IFN recall responses concomitant with intense IL-10 production, which were independent of viral replication in PBMC. Surprisingly, despite Type 1 cytokine production dominated adaptive immune responses in both asthmatic and non-asthmatic individuals, asthmatics exhibited significantly stronger pro-inflammatory IFNγ and IL-10 production towards virus stimulation than non-asthmatic children and adults. Moreover, children with current AHR, regardless of asthmatic status, exhibit a greater frequency and intensity of IFNγ responses towards pneumoviruses than do non-AHR counterparts. Conversely, expression of chemokine CCL5 was substantially weaker in asthmatics, and was further decreased in children with AHR and familial history of asthma. This pattern of enhanced pro-inflammatory and deficient anti-viral CCL5 responses towards pneumoviruses in children with markers of symptomatic asthma or AHR may underlie the enhanced sensitivity of these children to experience breathing difficulties following infection with respiratory viruses. Furthermore, we have clearly demonstrated a gene by environment interaction, whereby ETS exposure in children with familial asthma results in suppressed anti-viral IFNγ and IL-10 production. Therefore, we have attempted to determine whether genetic variation affects the intermediate phenotype of anti-viral immunity, in the population and dependent on clinical status. In summary, we have demonstrated that asthma, childhood exposures and genetics shape anti-viral cytokine responses in human. These findings have a substantial impact for physicians deciding the contextually appropriate treatment for asthma symptoms in their patients and could have implications for experimentation relating to mechanisms of disease, clinical practice and development of appropriate therapeutics.

Immunology

Virus

Immunity

Cytokine

Genetics

Human

Asthma

RSV

MPV

Reovirus

PBMC

ETS

Evaluation of an automated multiplex real-time RT-PCR assay for rapid detection of Influenza A and B viruses

Broddesson, Sandra

January 2015

Influenza is a viral infection that affects global health and economy with its endemic and sometimes pandemic spread. Rapid detection of Influenza viruses enables antiviral use and can bring financial savings. It is also essential for the global surveillance of prevalent Influenza strains. RT-PCR is considered the most specific and sensitive method for detection of Influenza, but Influenza mutates at a high rate and it is therefore crucial that RT-PCR methods are updated regularly. In 2014, Cepheid released their Xpert Flu/RSV XC assay, which can detect Influenza A and B and RSV by multiplex RT-PCR in approximately one hour. The aim of this study was to evaluate this assay at Laboratoriemedicin Västernorrland by using the laboratory’s previous PCR assay for detection of Influenza viruses as reference method. Real-time RT-PCR was used to compare Xpert Flu/RSV XC to the reference method. A dilution series was performed to estimate the methods’ PCR efficiencies and precision was calculated from quadruplicates of a positive control sample. Clinical specimens (n=42) were used to evaluate the diagnostic sensitivity and specificity of Xpert Flu/RSV XC. Objective statistical analysis of PCR data was performed and discussed. The Xpert Flu/RSV XC was equivalent to the reference method and demonstrated high diagnostic sensitivity and specificity. Estimated PCR efficiencies were however low. With the introduction of Xpert Flu/RSV XC to the laboratory follows many potential benefits, primarily in form of a simplified pre analytical procedure and a shortened analysis time. The Xpert Flu/RSV XC assay enables fast diagnosis of Influenza infection.

H7N9

PCR efficiency

respiratory viral infection

shortened analysis time

statistical analysis

Xpert Flu/RSV XC

Asthma, childhood exposures and genetics shape anti-viral cytokine responses in humans

Douville, Renee Nicole

11 September 2007

Respiratory virus infections are associated with asthma pathogenesis and exacerbations in children and adults. Unfortunately, it remains largely unknown whether innate and adaptive T cell anti-viral immunity differs in allergic disease versus health. Here, we established a short-term primary cell culture system using human peripheral blood mononuclear cells (PBMC) optimized for measuring immune responses to reovirus, respiratory syncytial virus (RSV) and metapneumovirus (MPV) based on virus-specific cytokine and chemokine production. The prevalence and intensity of innate and adaptive responses in children and adult populations was addressed. Using this in vitro model of human anti-viral immunity, we tested our global hypothesis that asthmatics mount anti-viral cytokine responses to respiratory viruses that differ from those of healthy individuals. MPV and RSV, although both ubiquitous and leading to very high levels of infection, seroconversion and clinically similar presentation in the population, evoke distinct innate and adaptive T cell-dependent cytokine responses. Reovirus induced exceptionally strong IFN recall responses concomitant with intense IL-10 production, which were independent of viral replication in PBMC. Surprisingly, despite Type 1 cytokine production dominated adaptive immune responses in both asthmatic and non-asthmatic individuals, asthmatics exhibited significantly stronger pro-inflammatory IFNγ and IL-10 production towards virus stimulation than non-asthmatic children and adults. Moreover, children with current AHR, regardless of asthmatic status, exhibit a greater frequency and intensity of IFNγ responses towards pneumoviruses than do non-AHR counterparts. Conversely, expression of chemokine CCL5 was substantially weaker in asthmatics, and was further decreased in children with AHR and familial history of asthma. This pattern of enhanced pro-inflammatory and deficient anti-viral CCL5 responses towards pneumoviruses in children with markers of symptomatic asthma or AHR may underlie the enhanced sensitivity of these children to experience breathing difficulties following infection with respiratory viruses. Furthermore, we have clearly demonstrated a gene by environment interaction, whereby ETS exposure in children with familial asthma results in suppressed anti-viral IFNγ and IL-10 production. Therefore, we have attempted to determine whether genetic variation affects the intermediate phenotype of anti-viral immunity, in the population and dependent on clinical status. In summary, we have demonstrated that asthma, childhood exposures and genetics shape anti-viral cytokine responses in human. These findings have a substantial impact for physicians deciding the contextually appropriate treatment for asthma symptoms in their patients and could have implications for experimentation relating to mechanisms of disease, clinical practice and development of appropriate therapeutics.

Immunology

Virus

Immunity

Cytokine

Genetics

Human

Asthma

RSV

MPV

Reovirus

PBMC

ETS

L’étude de l’impact des protéines non structurales NS1 et NS2 du virus respiratoire syncitial sur la réponse immunitaire innée

Yoboua, Fabrice Aman

04 1900

Le virus respiratoire syncytial (RSV) est un virus à ARN de polarité négative. Les études démontrent que toute la population sera infectée par ce virus au moins deux fois avant l’âge de 3 ans. Le RSV peut provoquer plusieurs pathologies respiratoires telles que la bronchiolite aiguë et la pneumonie. Les infections sévères corrèlent avec le développement de l’asthme. Lors d’une infection virale, les particules du RSV sont détectées par le senseur RIG-I qui induit l’activation des facteurs de transcription NF-κB et IRF-3. Respectivement, les facteurs de transcription activeront les réponses inflammatoire et antivirale. Au coeur des pathologies induites par le RSV se trouve une réponse immunitaire mal adaptée. Plus précisément, par l’entremise de NF-κB, le RSV provoque une production exagérée de cytokines et chimiokines qui induisent une réponse inflammatoire démesurée provoquant du dommage tissulaire. Paradoxalement, le RSV est capable d’échapper à la réponse antivirale. Ces deux phénomènes sont contrôlés par l’entremise des protéines non structurales NS1 et NS2. Le mécanisme délimitant le mode d’action de NS1 et NS2 sur la réponse antivirale reste à être déterminé. Avec pour objectif d’élucider comment NS1 et NS2 inhibent la réponse antivirale, nous avons investigué le mécanisme de reconnaissance de l’hôte vis-à-vis de RSV. Nous démontrerons, pour la première fois, que le senseur cytosolique MDA5 est impliqué dans la réponse antivirale contre le RSV. Nous présenterons des résultats préliminaires qui suggèrent que le rôle de MDA5 est non redondant à RIG-I. À l’aide d’ARN interférant dirigé contre RIG-I et de transfection de MDA5, nous démontrerons que MDA5 ne contribue pas à la phosphorylation d’IRF-3, mais plutôt qu’elle régit la stabilité du facteur de transcription. Nous démontrerons aussi que, contrairement à l’hypothèse actuelle sur le fonctionnement de NS1 et NS2, l’inhibition de ces derniers ne provoque pas une augmentation de la cytokine antivirale IFN−β. Cependant, l’expression ectopique de NS1 et NS2 réduit l’activité du promoteur de l’IFN-β et de la protéine cytoplasmic antivirale ISG56 lorsqu’elle est mesurée par essai luciférase. / Respiratory Syncytial Virus (RSV) is a RNA virus with negative polarity. RSV infections are the most common cause of hospitalization among infants. Among populations at risk, infection of RSV can be quite severe. RSV infections can cause bronchiolitis, pneumonia, while severe infections are linked to the development of asthma. Early in the infectious cycle of RSV, the cytosolic sensor RIG-I captures viral particles, and activates the immune response by engaging the transcription factors IRF-3 and NF-κB. At the heart of RSV mediated pathologies is a skewed immune response. More precisely, RSV over stimulates the release of proinflammatory chemokines and cytokines. Intriguingly, while RSV is able to stimulate the production of proinflammatory cytokines and chemokines, RSV under stimulates the antiviral response. The ability of RSV to evade the antiviral response is thought to be mediated by its non-structural proteins: NS1 and NS2. However, the mechanism by which NS1 and NS2 enable RSV to evade the antiviral response remains to be determined. In this memoir we investigated, how RSV is recognized by the innate immune response in airway epithelial cells. With this information we hope to improve our understanding of how NS1 and NS2 allow RSV to circumvent the antiviral response. We show for the first time that cytosolic sensor MDA5 plays a role in the recognition of RSV particles. Using a combination of interfering RNA directed against RIG-I, and transfection of MDA5, we show that MDA5 does not contribute to the phosphorylation of IRF-3. According to the data presented, we suggest that MDA5’s role in the immune response is to prevent the degradation of IRF-3. Contrary to previous research, we show that the inhibition of the nonstructural protein does not increase the production of the antiviral cytokine IFN-β. However, the ectopic expression of NS1 and NS2 does lead to a reduction of the promoter activity of IFN-β and the antiviral protein ISG56 when measured by luciferase assay. This research highlights the importance of MDA5 as a potential therapeutic target in the development of a cure for RSV.

Mda5

Rig-I

RSV

NS1

NS2

Respiratory tract infections in children with congenital heart disease

Granbom, Elin

January 2016

Respiratory Syncytial Virus (RSV) infection is common among young children. Congenital Heart Disease (CHD) is a risk factor of severe illness and hospitalization. Palivizumab prophylaxis reduces the severity of RSV infection and reduces the risk of hospitalization for children at high risk of severe illness, such as children born premature or with CHD. The aim of this thesis was to evaluate compliance with national guidelines for prophylactic treatment and to study the Relative Risk (RR) of hospitalization due to RSV and unspecified Respiratory Tract Infection (RTI) for children with CHD. In a prospective study, questionnaires were sent to all paediatric cardiology centres in Sweden with questions about prophylactic treatment. Hospitalization rates were retrieved from the national inpatient registry. Heart defects were grouped according to type and the relative risk of hospitalization was calculated for each group and for summer and winter seasons. Half of the patients received prophylactic treatment later than recommended in the guidelines. The risk of hospitalization due to RSV infection was increased (RR=2.06 95% CI 1.6-2.6; p < 0.0001) for children with CHD compared to children without CHD. The RR of hospitalization was also increased for all CHD subgroups, and was further increased during summer for children with the more severe CHD. We conclude that guidelines for prophylactic treatment were not followed and that the risk of hospitalization due to RSV and unspecified RTI was increased for all subgroups of CHD. The risk was increased both during winter and summer and we therefore argue that information to health personnel and parents should include that the risk of severe RTI is present all year round for children with CHD. / Respiratoriskt syncytialvirus (RSV) är det vanligaste förkylningsviruset och de allra flesta barn drabbas före två års ålder. RSV kan leda till allvarlig luftvägsinfektion hos alla barn, men speciellt hos dem med medfött hjärtfel. Någon botande läkemedelsbehandling finns inte för RSV, utan de medicinska insatserna får inriktas mot att mildra sjukdomsförloppet och för svårt sjuka barn krävs sjukhusvård för att exempelvis erhålla syrgasbehandling. Det finns inget vaccin mot RSV, men barn som riskerar att bli svårt sjuka kan behandlas profylaktiskt med en monoklonal antikropp (Palivizumab) som ges som injektion en gång per månad under vintersäsong. Vissa barn med svårt hjärtfel får denna profylaktiska behandling enligt nationella riktlinjer. Vår första studie visade att ungefär hälften av barnen med medfött hjärtfel, aktuella för profylax mot RSV, fick behandlingen senare än vad de nationella riktlinjerna rekommenderade. Denna studie genomfördes via en enkät till alla landets barnkliniker under två vintersäsonger. Vi såg även att något fler barn än förväntat (4.6%) fick RSV-infektion trots profylaktisk behandling och för cirka en tredjedel av dessa barn fördröjdes tiden till hjärtoperation. Behovet av sjukhusvård kan användas som mått på hur svårt ett sjukdomsförlopp är, och baserat på Socialstyrelsens slutenvårdsregister studerade vi alla barn under två års ålder och fann att den relativa risken för sjukhusvård på grund av RSV var högre för barn med hjärtfel än för barn utan hjärtfel (RR=2.06 95% CI 1.6-2.6; p < 0.0001). I vår andra studie, baserad på slutenvårdsregistret, beräknade vi den relativa risken för sjukhusvård på grund av RSV, för barn med olika former av hjärtfel och uppdelat i sommar- och vintersäsong. Risken för sjukhusvård var ökad för alla barn oavsett typ av hjärtfel, och detta gällde såväl under vintern som under sommaren. Barn med de allvarligaste formerna av hjärtfel hade högre risk för sjukhusvård under sommaren jämfört med deras risk under vintern, medan barn med vad som anses vara lättare hjärtfel hade ökad risk för sjukhusvård under hela året, utan någon större skillnad i risk mellan vinter och sommar. Att barn med hjärtfel riskerar att bli svårt sjuka i RSV är väl känt, men våra resultat visar att denna risk även existerar under sommarhalvåret, då det inte är RSV-säsong och då profylax inte ges. Vi fann också att barn med vad som anses vara lättare hjärtfel löper lika stor risk att drabbas av svårare sjukdomsförlopp med sjukhusvård under vintern, som barn med svårare hjärtfel. Att denna information sprids till såväl sjukvårdspersonal som arbetar med denna patientgrupp som till föräldrar med hjärtsjuka barn är viktigt, för att belysa att även dessa barn behöver skyddas, och detta inte bara under vintern och RSV-säsongen.

Respiratory tract infection

Respiratory syncytial virus

Congenital heart disease

CHD

RSV

Palivizumab

Prophylax

Pediatrics

Pediatrik

Distribuce míst integrace exprimovaných provirů / Integration site distribution of expressed proviruses

Miklík, Dalibor

January 2019

To establish efficient expression of their genes, retroviruses integrate proviral copies into the genomes of the cells they have infected. Epigenetic events, however, silence expression of the integrated proviruses. This silencing protects host cells from harmful viral spread, but also creates a reservoir of latent proviruses that subsequently hinders the cure of retroviral (e.g., HIV-1) infections. Furthermore, the silencing of retrovirus-derived integrative vectors complicates their application in transgenesis and gene therapy. The goal of this thesis is to describe the interaction between retroviral expression and host (epi)genomic environment at the site of proviral integration. To pursue the goal, we sought to define the (epi)genomic environment of the proviruses, which expression is not affected by the epigenetic silencing. Diverse retroviral vectors derived from avian sarcoma and leukosis virus (ASLV), murine leukemia virus (MLV), and human immunodeficiency virus type 1 (HIV-1) were used as model retroviral systems, and expression stability of the vectors in human cell lines was examined. In order to identify the features unique to integration sites of the active proviruses, we sorted the cells positive for the proviral expression, identified their proviral integration sites, and compared them to...

Étude de la régulation du facteur de transcription NF-kB dans l'infection par le RSV

Martel, Alexis

02 1900

No description available.

RSV

NF-kB

Nox2

RIG-I