Aubri A. Rush scite author profile

Aubri A. Rush

2Publications

86Citation Statements Received

102Citation Statements Given

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Valparaiso University, University of Colorado Denver

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Lactobacillus rhamnosus GG Improves Outcome in Experimental Pseudomonas aeruginosa Pneumonia

Khailová

Baird

Rush

et al. 2013

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Introduction Recent clinical trials show Lactobacillus rhamnosus GG (LGG) administration in critical illness has the potential to reduce nosocomial infections and improve clinical outcome. However, the mechanism(s) of LGG-mediated benefit following illness and injury remain elusive. Objective The aim of this study was to determine the effect of LGG treatment on survival and lung injury in a mouse model of Pseudomonas aeruginosa–induced pneumonia. As increased T regulatory (Treg) cell numbers have been shown to improve outcome in experimental pneumonia, we examined the potential role of Treg cells in probiotic-mediated benefit. Methods FVB/N mice were subjected to intratracheal injection of either P. aeruginosa or saline and received LGG or vehicle immediately before procedure. T regulatory cell responses in the lung were evaluated by polymerase chain reaction, Western blotting, and flow cytometry. Results Mice treated with LGG had significantly improved 7-day survival (P < 0.01) compared with saline-treated control pneumonia mice (55% LGG vs. 14% control). The survival advantage was associated with reduced bacterial counts in bronchoalveolar lavage and with decreased markers of the systemic inflammatory response and improved lung pathology in the probiotic group. Probiotic treatment influenced immune response in the lungs of mice with pneumonia as demonstrated by increased levels of Treg cell marker Foxp3. Conclusions These data demonstrate that early administration of LGG improves outcome following P. aeruginosa–induced pneumonia. An effect of LGG on Treg cells may play a role in this protection.

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Lactobacillus rhamnosus GG treatment improves intestinal permeability and modulates inflammatory response and homeostasis of spleen and colon in experimental model of Pseudomonas aeruginosa pneumonia

et al. 2017

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Background and Aims Recent clinical trials and in vivo models demonstrate probiotic administration can reduce occurrence and improve outcome of pneumonia and sepsis, both major clinical challenges worldwide. Potential probiotic benefits include maintenance of gut epithelial barrier homeostasis and prevention of downstream organ dysfunction due to systemic inflammation. However, mechanism(s) of probiotic-mediated protection against pneumonia remain poorly understood. This study evaluated potential mechanistic targets in the maintenance of gut barrier homeostasis following Lactobacillus rhamnosus GG (LGG) treatment in a mouse model of pneumonia. Methods Studies were performed in 6–8 week old FVB/N mice treated (o.g.) with or without LGG (109CFU/ml) and intratracheally injected with Pseudomonas aeruginosa or saline. At 4, 12, and 24h post-bacterial treatment spleen and colonic tissue were collected for analysis. Results Pneumonia significantly increased intestinal permeability and gut claudin-2. LGG significantly attenuated increased gut permeability and claudin-2 following pneumonia back to sham control levels. As mucin expression is key to gut barrier homeostasis we demonstrate that LGG can enhance goblet cell expression and mucin barrier formation versus control pneumonia animals. Further as Muc2 is a key gut mucin, we show LGG corrected deficient Muc2 expression post-pneumonia. Apoptosis increased in both colon and spleen post-pneumonia, and this increase was significantly attenuated by LGG. Concomitantly, LGG corrected pneumonia-mediated loss of cell proliferation in colon and significantly enhanced cell proliferation in spleen. Finally, LGG significantly reduced pro-inflammatory cytokine gene expression in colon and spleen post-pneumonia. Conclusions These data demonstrate LGG can maintain intestinal barrier homeostasis by enhancing gut mucin expression/barrier formation, reducing apoptosis, and improving cell proliferation. This was accompanied by reduced pro-inflammatory cytokine expression in the gut and in a downstream organ (spleen). These may serve as potential mechanistic targets to explain LGG’s protection against pneumonia in the clinical and in vivo setting.

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Aubri A. Rush

Lactobacillus rhamnosus GG Improves Outcome in Experimental Pseudomonas aeruginosa Pneumonia

Lactobacillus rhamnosus GG treatment improves intestinal permeability and modulates inflammatory response and homeostasis of spleen and colon in experimental model of Pseudomonas aeruginosa pneumonia

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