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st pathogens within the respiratory tract. Our lab has extensively studied the roles of mast cells during host defense against P. aeruginosa. However the role of autophagy in mast cells in the context of host defense, as well as the biological role of autophagy during P. aeruginosa infections remains unknown. In order to examine the role of autophagy in mast cells during P. aeruginosa infection, bone marrow derived mast cells were cultured from C57/BL6 mice. These cells were then infected with P. aeruginosa strain 8821 at an MOI of 1:100. Whole cell lysates were prepared at various time points as indicated, and subjected to western blot analysis for microtubule associated protein light chain 3 and actin loading control. Upon the induction of autophagy the cytoplasmic form of LC3 becomes cleaved and conjugated to phophotidylethanolamine through a ubiquitin like conjugation pathway. This PE conjugated form of the protein becomes and remains associated with autophagosomal membrane throughout the maturation cycle of the vesicle. The conversion of cytosolic LC3-I to autophagosome associated LC3-II is diagnostic of autophagy and can be tracked by Western blot analysis. In untreated cells, the PE conjugated LC3-II form of the protein predominated within the cells, consistent with a previously describe role for LC3 in mast cell 26507655 granule formation. However while the cytoplasmic LC3-I levels remained unchanged upon stimulation with P. aeruginosa, the levels of LC3-II accumulated well above basal levels, peaking around 18 hours post infection, indicating an induction of autophagy. Autophagy can also be monitored using a construct consisting of LC3 conjugated to GFP. Upon the induction of autophagy, LC3GFP becomes redistributed from a diffuse cytosolic distribution to distinct GFP positive puncta representing autophagosomes. In order to monitor autophagy following P. aeruginosa Debio-1347 infection using this technique, the HMC-1 5C6 human mast cell line was stably transfected with an LC3-GFP construct. These cells were then infected with P. aeruginosa strain 8821 at a 1:100 MOI and fixed at various time points post-infection for examination by fluorescence microscopy. The untreated 14557281 cells displayed primarily a diffuse cytosolic distribution of LC3-GFP prior to exposure to P. aeruginosa. However upon stimulation with the bacteria for 18 hours the fluorescence became largely localized to discrete GFP positive puncta indicative of autophagosomes. In order to further quantify the induction of autophagy, the percentage of cells at each time point which displayed greater than 5 discrete GFP puncta was assessed. A time dependent increase in GFP puncta positive cells was observed, which peaked 18 hpi, and was significantly increased compared to untreated cells between the 12 and 24 hpi time points. HMC-1 5C6 cells stably expressing LC3-GFP were further used to assess flux through the autophagy pathway. As autophagosomes mature fluorescently inactive GFP is cleaved from LC3-II and accumulates in the cell. The appearance of this free GFP can be tracked as a measure of flux through the autophagy pathway. LC3-GFP expressing HMC-1 5C6 cells were left untreated or infected with P. aeruginosa at an MOI of 1:100. Lysates were prepared at the time points indicated, and were subjected to Western blot analysis for free GFP. No free GFP was detected in untreated cells. However free GFP protein began to appear in the cells as soon as 12 hpi, and continued to increase at longer tim

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Author: Potassium channel