Impaired Gut–Systemic Signaling Drives Total Parenteral Nutrition-Associated Injury

Miguel Guzman,Chandrashekhara Manithody,Joseph Krebs,Christine Denton,Sherri Besmer, Pranjali Rajalakshmi,Sonali Jain,Gustavo Adolfo Villalona,Ajay Kumar Jain

Nutrients（2020）

St Louis Univ

Cited 26|Views23

Abstract

Background: Total parenteral nutrition (TPN) provides all nutritional needs intravenously. Although lifesaving, enthusiasm is significantly tempered due to side effects of liver and gut injury, as well as lack of mechanistic understanding into drivers of TPN injury. We hypothesized that the state of luminal nutritional deprivation with TPN drives alterations in gut–systemic signaling, contributing to injury, and tested this hypothesis using our ambulatory TPN model. Methods: A total of 16 one-week-old piglets were allocated randomly to TPN (n = 8) or enteral nutrition (EN, n = 8) for 3 weeks. Liver, gut, and serum were analyzed. All tests were two-sided, with a significance level of 0.05. Results: TPN resulted in significant hyperbilirubinemia and cholestatic liver injury, p = 0.034. Hepatic inflammation (cluster of differentiation 3 (CD3) immunohistochemistry) was higher with TPN (p = 0.021). No significant differences in alanine aminotransferase (ALT) or bile ductular proliferation were noted. TPN resulted in reduction of muscularis mucosa thickness and marked gut atrophy. Median and interquartile range for gut mass was 0.46 (0.30–0.58) g/cm in EN, and 0.19 (0.11–0.29) g/cm in TPN (p = 0.024). Key gut–systemic signaling regulators, liver farnesoid X receptor (FXR; p = 0.021), liver constitutive androstane receptor (CAR; p = 0.014), gut FXR (p = 0.028), G-coupled bile acid receptor (TGR5) (p = 0.003), epidermal growth factor (EGF; p = 0.016), organic anion transporter (OAT; p = 0.028), Mitogen-activated protein kinases-1 (MAPK1) (p = 0.037), and sodium uptake transporter sodium glucose-linked transporter (SGLT-1; p = 0.010) were significantly downregulated in TPN animals, whereas liver cholesterol 7 alpha-hydroxylase (CyP7A1) was substantially higher with TPN (p = 0.011). Conclusion: We report significant alterations in key hepatobiliary receptors driving gut–systemic signaling in a TPN piglet model. This presents a major advancement to our understanding of TPN-associated injury and suggests opportunities for strategic targeting of the gut–systemic axis, specifically, FXR, TGR5, and EGF in developing ameliorative strategies.

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Key words

parenteral nutrition,liver disease,gut injury,gut–systemic crosstalk,hepato-biliary receptors and transporters

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