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Investigating the Effects of Inhaled Diesel Exhaust Particles on Gut Microbiome, Intestinal Integrity, Systemic Inflammation, and Biomarkers of Cardiovascular Disease in Wildtype Mice

We investigated the hypothesis that exposure to inhaled diesel exhaust PM can alter the gut microbiome and intestinal integrity, thereby promoting systemic inflammatory response and early CVD risk, which are exacerbated by HF diet. Furthermore, we investigated whether the observed exposure and diet-mediated outcomes could be mitigated through probiotic treatment. We performed an exposure study on C57Bl/6 male mice, placed on either a low fat (LF) diet or a high-fat (HF) diet, and exposed via oropharyngeal aspiration to 35 μg diesel exhaust particles (DEP) suspended in 35 μl of sterile saline or sterile saline controls (CON) twice a week for four weeks. A subset of mice on HF diet were dosed with 0.3 g/day (PRO, ~7.5x108 CFU/day) of probiotic Ecologic® Barrier 849 (Winclove Probiotics) in drinking water during the course of the study. For our first aim, we investigated the alterations in the gut microbiome, measured circulating cytokines and lipopolysaccharide (LPS), and measured CVD biomarkers in the heart. Our results revealed that exposure to inhaled DEP results in gut dysbiosis characterized by expansion of the phyla Verrucomicrobia and Proteobacteria and reduction in Actinobacteria, which was exacerbated by HF diet. Probiotics mitigated the DEP-mediated expansion of Proteobacteria and re-established Actinobacteria in the intestine of HF animals. Furthermore, we determined that exposure to inhaled DEP increases systemic LPS and inflammatory markers IL-1α, IL-3, G-CSF, and TNF-α. Furthermore, we found that inhaled DEP exposure results in increased CVD biomarkers sICAM-1, sP-selectin, and thrombomodulin in the heart. Probiotic treatment was effective in attenuating LPS, inflammatory responses, and CVD biomarkers in HF animals, validating the involvement of the microbiome in mediating inhaled DEP-mediated responses. Considering the effects we observed in the microbiota and systemically of the HF and probiotic treatment animals, we investigated the effects of inhaled DEP on intestinal integrity and inflammation in HF ± PRO animals. Our results showed that inhaled DEP in conjunction with HF diet promotes increased goblet cell and mucin 2 expression, tight junction (TJ) proteins (claudin-3, occludin, and zonula occludens (ZO)-1) expression, matrix metalloproteinase (MMP)-9, toll-like receptor (TLR)-4, and decreased TNF-α and IL-10. Moreover, we found that probiotics promoted intestinal immune response following inhaled DEP exposure characterized by an increase in TNF-α and IL-10 and showed variable expression of TJs in the intestine. In conclusion, we found that inhaled DEP exposure results in changes in gut microbial profiles, altered intestinal integrity, systemic inflammation, and increased CVD biomarkers, which are exacerbated by HF diet. The use of probiotics in this study proved to be pivotal in understanding the microbiome's influences on the regulation of intestinal integrity, intestinal inflammation, systemic inflammation, and cardiovascular system following inhaled DEP exposure with HF diet.

Identiferoai:union.ndltd.org:unt.edu/info:ark/67531/metadc1873801
Date12 1900
CreatorsPhillippi, Danielle T.
ContributorsLund, Amie K., Bowman, Erin M., Kim, Hyunju (Biologist), Roberts, Aaron P., McFarlin, Brian
PublisherUniversity of North Texas
Source SetsUniversity of North Texas
LanguageEnglish
Detected LanguageEnglish
TypeThesis or Dissertation
Formatx, 158 pages : illustrations (chiefly color), Text
RightsPublic, Phillippi, Danielle T., Copyright, Copyright is held by the author, unless otherwise noted. All rights Reserved.

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