Nalysis involved repeated samples on the same animals were thus Title Loaded From File compared using a parametric repeated measures ANOVA and Bonferroni post-test. Viable bacterial counts were compared using a nonparametric Mann-Whitney tTest. Incidences of bacterial infections were compared by Chi square analysis. P values,0.05 were considered significant. All experiments were repeated at least once.Results EDE Mice Show Similar P. S. Strikingly, the transition to memory resulted in no functional avidity aeruginosa Tissue Colonization and Pathology to ControlsEDE was induced in C57BL/6 mice for 5?0 days as described previously [26,37]. This model is known to induce damage in the lacrimal gland, cornea, and conjunctiva without grossly affecting other mucosal and non-mucosal tissues [39,40]. As previously reported [37], we observed a significant decrease in tear volume (,70 ) compared to control mice within the first 2 days of administering scopolamine and evaporative air drafts, and this decrease was maintained for 10 days (Fig. 1A). EDE mice also showed fluorescein penetration of the cornea after 5 days, which intensified up to 10 days with continued scopolamine and air draft exposure (Fig. 1B, lower panels). Control mice did not show significant fluorescein staining (Fig. 1B, upper panels). After 10 days of EDE, mice were topically challenged with P. aeruginosa strain PAO1 (,109 cfu) without other prior injury to 16985061 the cornea. Dry eye conditions were maintained and ocular pathology observed for up to 4 days (96 h) post-inoculation (pi). After 4 days, there were relatively few instances of ocular pathology. Less than 15 of challenged corneas displayed pathology, and there was no significant difference in disease incidence between EDE and control mice [EDE 14 versus control 10 ; p-value (Chi square) = 0.75] (Table 1). When present, corneal pathology manifested as focal or punctate opacities observed within 24 h of challenge and varied from mild to moderate severity with disease scores of 4, 5, and 6, Table 1) after 4 days.Figure 1. Induction of experimental dry eye. Tear volumes (A) and fluorescein staining (B) in the eyes of C57BL/6 mice under experimental dry eye (EDE) conditions versus normal controls (NC). (A) EDE resulted in significant decreases in tear volume after 2 days. Tears were collected from the lateral canthus using cotton thread and reported as millimeters of wetted thread. Data are expressed as the mean +/2 standard deviation per group from three independent experiments ( 3 mice per group for each experiment). * Denotes significance differences between treatment groups (determined with a parametric repeated measures ANOVA and Bonferroni post-test), p,0.001 in each instance). (B) Corneal integrity was assessed by fluorescein staining in EDE mice or normal controls after 5 or 10 days. Eyes were examined under blue light illumination at 20-x magnification. Photographs are representative of three independent experiments ( 3 mice per group for each experiment). Control mouse eyes are shown in the upper panels (a, b), EDE mouse eyes are shown in the lower panels (c, d). Arrows denote regions of fluorescein staining on the ocular surface. doi:10.1371/journal.pone.0065797.gEnhanced P. aeruginosa Clearance From Ocular Surface Washes of EDE MiceThe initial clearance of P. aeruginosa from the ocular surface was assessed by measuring viable bacteria in corneal homogenates and ocular surface washes of EDE mice compared to normal controls at 6 h post-inoculation. EDE was induced for 5 days before bacterial inoculation. The majo.Nalysis involved repeated samples on the same animals were thus compared using a parametric repeated measures ANOVA and Bonferroni post-test. Viable bacterial counts were compared using a nonparametric Mann-Whitney tTest. Incidences of bacterial infections were compared by Chi square analysis. P values,0.05 were considered significant. All experiments were repeated at least once.Results EDE Mice Show Similar P. aeruginosa Tissue Colonization and Pathology to ControlsEDE was induced in C57BL/6 mice for 5?0 days as described previously [26,37]. This model is known to induce damage in the lacrimal gland, cornea, and conjunctiva without grossly affecting other mucosal and non-mucosal tissues [39,40]. As previously reported [37], we observed a significant decrease in tear volume (,70 ) compared to control mice within the first 2 days of administering scopolamine and evaporative air drafts, and this decrease was maintained for 10 days (Fig. 1A). EDE mice also showed fluorescein penetration of the cornea after 5 days, which intensified up to 10 days with continued scopolamine and air draft exposure (Fig. 1B, lower panels). Control mice did not show significant fluorescein staining (Fig. 1B, upper panels). After 10 days of EDE, mice were topically challenged with P. aeruginosa strain PAO1 (,109 cfu) without other prior injury to 16985061 the cornea. Dry eye conditions were maintained and ocular pathology observed for up to 4 days (96 h) post-inoculation (pi). After 4 days, there were relatively few instances of ocular pathology. Less than 15 of challenged corneas displayed pathology, and there was no significant difference in disease incidence between EDE and control mice [EDE 14 versus control 10 ; p-value (Chi square) = 0.75] (Table 1). When present, corneal pathology manifested as focal or punctate opacities observed within 24 h of challenge and varied from mild to moderate severity with disease scores of 4, 5, and 6, Table 1) after 4 days.Figure 1. Induction of experimental dry eye. Tear volumes (A) and fluorescein staining (B) in the eyes of C57BL/6 mice under experimental dry eye (EDE) conditions versus normal controls (NC). (A) EDE resulted in significant decreases in tear volume after 2 days. Tears were collected from the lateral canthus using cotton thread and reported as millimeters of wetted thread. Data are expressed as the mean +/2 standard deviation per group from three independent experiments ( 3 mice per group for each experiment). * Denotes significance differences between treatment groups (determined with a parametric repeated measures ANOVA and Bonferroni post-test), p,0.001 in each instance). (B) Corneal integrity was assessed by fluorescein staining in EDE mice or normal controls after 5 or 10 days. Eyes were examined under blue light illumination at 20-x magnification. Photographs are representative of three independent experiments ( 3 mice per group for each experiment). Control mouse eyes are shown in the upper panels (a, b), EDE mouse eyes are shown in the lower panels (c, d). Arrows denote regions of fluorescein staining on the ocular surface. doi:10.1371/journal.pone.0065797.gEnhanced P. aeruginosa Clearance From Ocular Surface Washes of EDE MiceThe initial clearance of P. aeruginosa from the ocular surface was assessed by measuring viable bacteria in corneal homogenates and ocular surface washes of EDE mice compared to normal controls at 6 h post-inoculation. EDE was induced for 5 days before bacterial inoculation. The majo.