Department of Veterinary Medicine Theses and Dissertations
Permanent URI for this collectionhttp://hdl.handle.net/1903/2762
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Item CD23 MEDIATED IGE TRANSCYTOSIS IN AIRWAY INFLAMMATION(2012) Palaniyandi, Senthilkumar; Zhu, Xiaoping; Veterinary Medical Science; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)CD23 (FceRII), a C-type lectin type II membrane glycoprotein, plays an important role in IgE homeostasis and development of allergic inflammation. I showed that CD23 was constitutively expressed in the established or primary human airway epithelial cells and its expression was significantly up-regulated by IL-4 stimulation. In a transcytosis assay, human IgE or IgE derived immune complex was transported and enhanced by IL-4 stimulation across a polarized Calu-3 monolayer. A CD23 specific antibody or soluble CD23 significantly reduced the transcytosis, suggesting a specific receptor-mediated transport by CD23. Transcytosis of both IgE and the immune complex was further verified in primary human airway epithelial cell monolayers. Furthermore, the transcytosed antigen-IgE complexes were competent in inducing degranulation of the cultured human mast cells. This study implies CD23-mediated IgE transcytosis in human airway epithelial cells may play a critical role in initiating and contributing to the perpetuation of airway allergic inflammation. To verify the above results in a mouse model, CD23 expression was detected in epithelial cells lining mouse airway and enhanced by IL-4 exposure as well as in ovalbumin (OVA) sensitized mouse. I showed that CD23 transported IgE and OVA-IgE derived immune complex across airway epithelial cells in wild-type, but not CD23 knockout (KO), mice. The chimeric CD23KO mice repopulated with wild-type myeloid cells, sensitized and challenged with OVA showed significant reduction in siglec-F+ cells, eosinophils, macrophages and IL-4 in bronchoalveolar lavage fluid recovered 24 hours later compared to the wild-type mice. Our finding of CD23-mediated IgE transport in airway epithelial cells suggest a possibility of CD23 transporting an IgE Fc-fused protein for immunotherapy. CTLA-4 (Cytotoxic T-Lymphocyte Antigen 4) which competitively binds CD80 and CD86 expressed on antigen presenting cells and inhibits CD28 mediated co-stimulation of T cell activation. A CTLA4-Fc (IgE) fusion protein produced in Chinese hamster ovary cells was intranasally administrated into mouse airway for assessing its specific transport by CD23. The effect of this fusion protein on the development of allergic inflammation is being fully investigated in wild-type, CD23-KO, and chimeric mouse model.Item Regulation of Virulence by BarA-UvrY Two-Component system and LuxS in Extraintestinal Pathogenic Escherichia coli.(2007-12-05) Palaniyandi, Senthilkumar; Mukhopadhyay, Suman; Veterinary Medical Science; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)Pathogenic E. coli cause intestinal or extraintestinal infections in many host species. E. coli strains enter the intestinal tract through food and colonize the intestinal epithelium to cause infections. In animals and humans, E. coli causes gastroenteritis, neonatal meningitis and urinary tract infections. In birds, E. coli causes a complex syndrome called avian colibacillosis. The orthologs of BarA-UvrY two-component (TCS) system is known to regulate a number of phenotypic traits in gamma proteobacteria, although their role in Extraintestinal pathogenic Escherichia coli (ExPEC) virulence is yet to be determined. The barA gene is membrane bound sensor kinase protein and the uvrY gene encodes the cognate response regulator in E. coli. Work in this study has focused how the BarA-UvrY and LuxS system regulates in vivo virulence in uropathogenic E. coli (UPEC) and avian pathogenic E. coli (APEC) during infection. The main goal of this study is to look at how BarA-UvrY TCS and LuxS regulate virulence in APEC 7122 and UPEC CFT073. In this study, we studied the role of BarA-UvrY TCS system in regulation of virulence in the aforementioned ExPEC strains using animal model and tissue culture system and the role of LuxS in regulation of virulence determination in ExPEC. Our results indicate that BarA-UvrY regulates multiple virulence properties in APEC 7122 and UPEC CFT073 and that LuxS regulates partial virulence properties in APEC 7122 and UPEC CFT073.