Innate immune memory has become an increasingly popular area of research in the last decade. However, much of the work done on innate immune memory using inflammatory agents such as BCG, C. albicans, and β-glucan has been pursued through systemic administration, which has been shown to induce training in circulating monocytes. In addition, little is known about whether microbial ligands can induce training. Here, we show that local mucosal exposure to an acute dose of LPS induces long-lasting phenotypic changes in airway macrophage populations. LPS-exposed macrophages display increased glycolytic metabolism and differential cytokine expression upon restimulation, whereas circulating monocytes are not affected. Finally, we show that LPS exposure provides long-lasting protection against Streptococcus pneumoniae in the lung, likely due to the higher acquisition of CD11b, which is indicative of macrophage activation and phagocytosis. As much of the work on innate immune memory has been done through systemic administration of training agents, this project aims to fill existing knowledge gaps in the induction of innate immune memory upon local mucosal exposure to inflammatory agents. / Thesis / Master of Science in Medical Sciences (MSMS) / The innate immune system is one of the first defenders in our bodies that fight against a variety of pathogens. In the last decade, the innate immune system was found to be capable of having memory, meaning it reacts faster or at a heightened magnitude in response to a wide range of subsequent pathogens after it is trained by an agent. This project explores the effect a bacteria wall component, LPS, has on the lung environment and examines if it will induce memory in the lung. Our findings show that intranasal exposure to LPS changes the cellular landscape in the lung. LPS-exposed airway innate immune cells become more activated and provide subsequent protection against bacterial infections. This work has implications for using LPS as a vaccine adjuvant in order to provide protection against a variety of pathogens in addition to specific protection brought by the vaccine.
| Identifer | oai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/27845 |
| Date | January 2022 |
| Creators | Ye, Gluke |
| Contributors | Xing, Zhou, Medicine |
| Source Sets | McMaster University |
| Language | English |
| Detected Language | English |
| Type | Thesis |
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