Project description:This SuperSeries is composed of the following subset Series: GSE35738: 2009 pandemic H1N1 virus causes disease and upregulation of genes related to inflammatory and immune response, cell death, and lipid metabolism in pigs GSE40088: Comparative transcriptomic analysis of acute host responses during 2009 pandemic H1N1 influenza infection in mouse, macaque, and swine (macaque dataset) GSE40091: Comparative transcriptomic analysis of acute host responses during 2009 pandemic H1N1 influenza infection in mouse, macaque, and swine (mouse dataset) Refer to individual Series
Project description:Proteomic profiling of serum antibody repertoire response to FluZone trivalent influenza vaccine in four healthy human subjects. Dataset consists of collected pre-vaccination (Day 0) and post-vaccination (Days 28 and 180) serum IgG samples enriched by affinity chromatography against individual monovalent inactivated components of the 2011-2012 trivalent vaccine (H1 A/California/07/2009 X-179A, H3 A/Victoria/210/2009, and B/Brisbane/60/2008).
Project description:The normal response to influenza A infection is to remain asymptomatic; indeed, a study of volunteers who tested positive for antibodies against 2009 H1N1 revealed that a majority did not experience symptoms. However, studies of influenza pandemics since the 20th century, and to a lesser degree seasonal flu, suggest that pregnancy increases influenza-associated morbidity and mortality. The confounding effect of pregnancy has been well established to adversely alter the clinical course of influenza, with short term complications to mother and baby apparent, and long-term consequences to the fetus hypothesized. However, how the condition of pregnancy impacts long-term maternal anti-influenza immunity remains contentious; while vaccination studies suggest humoral responses sufficient for protection, published research on adaptive immune responses against influenza formed during pregnancy is limited. This study expands upon published work from our lab and others by comprehensively examining compartmental and systemic changes following pandemic A/California/07/2009 influenza infection. Previously, we linked seasonal influenza infection to clinical observations of adverse outcomes in pregnancy, enhanced lung and placental histopathology, and reduced control of viral replication in lungs of infected pregnant mothers. Here, we observe that the results of a lower infectious dose of pandemic influenza are similar to that of seasonal influenza. Importantly, we expand upon work which suggests infection during pregnancy may also affect humoral immunity. Our observations of reduced early antibody hemagglutinin inhibition and virus neutralization which resolved within 8 weeks of delivery demonstrate that influenza infection impacts antibody maturation mechanisms without alterations to B cell frequency or antibody secretion. This hypothesis is further supported by plasmablast transcriptional data, which demonstrates downregulated B cell metabolism and post-translational modification systems only among pregnant animals. These findings corroborate a link between adverse pregnancy outcomes and severe pathology observed during influenza infection, and propose resolving humoral deficiencies following influenza infection confounded by pregnancy. Additional studies are required to specify the involvement of plasmablast metabolism with early humoral immunity abnormalities to best guide vaccination strategies and improve our understanding of the immunological consequences of pregnancy.
Project description:To further understand the molecular pathogenesis of the 2009 pandemic H1N1 influenza virus infection, we profiled cellular miRNAs of lung tissue from BALB/c mice infected with influenza virus BJ501 and a mouse-adapted influenza virus A/Puerto Rico/8/34 (H1N1)(PR8) as a comparison.
Project description:<p>We developed an improved high throughput sequencing approach to measure the quantities and sequences of the repertoire of antibody heavy chain RNA in a blood sample. Using this approach we analyzed the antibody repertoire in response to yearly vaccinations with influenza vaccines TIV and LAIV in healthy adults in two subsequent years. We determined vaccine response patterns specific to LAIV and TIV and found antibody sequences that were shared between two samples of the same individuals following influenza vaccination in subsequent years, thereby providing a genetic measurement of B-cell memory recall.</p>