Influenza is a contagious respiratory disease that has caused at least four pandemics and countless epidemics since the 20th century, impacted millions of people worldwide and the global economy. To date, the predominant influenza species circulating in humans are influenza A and B. Influenza may cause serious illness in all age groups but individuals such as the newborns and senior population whose immune systems are compromised are at higher risk for severe disease. Interestingly, during the outbreak of pandemic 2009 H1N1 (H1N1pdm), it was found that the elderly had the lowest hospitalization rate and an increased proportion of healthy adults developed severe disease. Furthermore, several clinical studies have demonstrated that most H1N1pdm infected children experienced mild to moderate illness and led to the least mortality. The difference of disease outcome in age groups between different influenza infections may be due to several factors, which include differing pathogenicity between the viruses, differential immune status and composition among the age groups, and pre-existing immunity from previous encounter(s) with a similar virus. Since the human clinical data are often complicated by secondary factors such as co-morbidities, I used the ferret model to address these questions. I first compared the clinical and pathological patterns among the pandemic and seasonal influenza strains and found H1N1pdm caused the most severe illness to healthy ferrets. Importantly, the disease severity did not correlate with viral burden but immunopathology. To study the age effect, I found that H1N1pdm infected young ferrets with mild clinical symptoms developed specialized ectopic lymphoid structures and a distinct cytokine expression profile in the lungs, which were absent in adult ferrets with severe illness. I also examined antigenic change in historical H1N1s and anti-H1 responses to explain the pre-existing immunity of H1N1pdm found in the elderly. However, low similarity was found between historical H1N1s and H1N1pdm. Lastly, I conducted a detailed influenza B comparative study. I observed the pathogenic B strain was capable to cause lower respiratory tract infection and pathology like the influenza A viruses. Overall, this thesis provides novel insights for developing therapeutic and prophylactic strategies against influenza infection.
Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/44115 |
Date | 27 March 2014 |
Creators | Huang, Stephen Shih-Hsien |
Contributors | David, Kelvin |
Source Sets | University of Toronto |
Language | en_ca |
Detected Language | English |
Type | Thesis |
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