Browsing by Author "Luo, Mengyao"
Now showing 1 - 3 of 3
Results Per Page
Sort Options
- Innate Immune Responses in the Alternaria-Dendritic Cell InteractionLuo, Mengyao (Virginia Tech, 2018-06-29)Exposure to spores and hyphae of Alternaria alternata, an airborne ubiquitous fungus, is clinically associated with allergic airway disorders including allergic rhinitis, asthma, and chronic rhinosinusitis. Dendritic cells are known as the type of antigen presenting cells most often associated with allergic inflammation. In this study, we used mouse bone marrow-derived dendritic cells (BMDCs) as a model to study the ability of A. alternata spores and different components of the spore cell wall to stimulate innate immune responses. We found that BMDCs were highly sensitive to A. alternata spores, chitin and the major allergen Alt a 1. Following stimulation with these molecules, the expression of MHC II and other co-stimulators, like CD40, CD86, and OX40L, were highly up regulated. In order to determine how different cell wall components affect the T cells, we conducted co-culture experiments of BMDCs and lymphocytes in this study. Both spores and Alt a1 did not induce IL-4 in mixed lymphocytes reactions. Interestingly, we found that Alt a 1 induced the switching of the CD4+ T cell population to the Th17 type, with a major increase in IL-17A secretion. This study reveals that A. alternata components may balance the innate immune responses between Th2 and Th17 pathways, and/or contributes to the development and exacerbation of more serve neutrophilic forms of asthma.
- Innate Immunity Induced by the Major Allergen Alt a 1 From the Fungus Alternaria Is Dependent Upon Toll-Like Receptors 2/4 in Human Lung Epithelial CellsHayes, Tristan; Rumore, Amanda; Howard, Brad; He, Xin; Luo, Mengyao; Wuenschmann, Sabina; Chapman, Martin C.; Kale, Shiv D.; Li, Liwu; Kita, Hirohito; Lawrence, Christopher B. (2018-07-30)Allergens are molecules that elicit a hypersensitive inflammatory response in sensitized individuals and are derived from a variety of sources. Alt a 1 is the most clinically important secreted allergen of the ubiquitous fungus, Alternaria. It has been shown to be a major allergen causing IgE-mediated allergic response in the vast majority of Alternaria-sensitized individuals. However, no studies have been conducted in regards to the innate immune eliciting activities of this clinically relevant protein. In this study, recombinant Alt a 1 was produced, purified, labeled, and incubated with BEAS-2B, NHBE, and DHBE human lung epithelial cells. Alt a 1 elicited strong induction of IL-8, MCP-1, and Groa/b/g. Using gene-specific siRNAs, blocking antibodies, and chemical inhibitors such as LPS-RS, it was determined that Alt a 1-induced immune responses were dependent upon toll-like receptors (TLRs) 2 and 4, and the adaptor proteins MYD88 and TIRAP. Studies utilizing human embryonic kidney cells engineered to express single receptors on the cell surface such as TLRs, further confirmed that Alt a 1-induced innate immunity is dependent upon TLR4 and to a lesser extent TLR2.
- LYSMD3: A mammalian pattern recognition receptor for chitinHe, Xin; Howard, Brad A.; Liu, Yang; Neumann, Aaron K.; Li, Liwu; Menon, Nidhi; Roach, Tiffany; Kale, Shiv D.; Samuels, David C.; Li, Hongyan; Kite, Trenton; Kita, Hirohito; Hu, Tony Y.; Luo, Mengyao; Jones, Caroline N.; Okaa, Uju Joy; Squillace, Diane L.; Klein, Bruce S.; Lawrence, Christopher B. (2021-07-20)Chitin, a major component of fungal cell walls, has been associated with allergic disorders such as asthma. However, it is unclear how mammals recognize chitin and the principal receptor(s) on epithelial cells that sense chitin remain to be determined. In this study, we show that LYSMD3 is expressed on the surface of human airway epithelial cells and demonstrate that LYSMD3 is able to bind chitin, as well as beta-glucan, on the cell walls of fungi. Knockdown or knockout of LYSMD3 also sharply blunts the production of inflammatory cytokines by epithelial cells in response to chitin and fungal spores. Competitive inhibition of the LYSMD3 ecto-domain by soluble LYSMD3 protein, multiple ligands, or antibody against LYSMD3 also blocks chitin signaling. Our study reveals LYSMD3 as a mammalian pattern recognition receptor (PRR) for chitin and establishes its role in epithelial cell inflammatory responses to chitin and fungi.