Review Article
Gut Barrier and Microbiota in Cirrhosis

https://doi.org/10.1016/j.jceh.2021.08.027Get rights and content

Gut microbiota and their homeostatic functions are central to the maintenance of the intestinal mucosal barrier. The gut barrier functions as a structural, biological, and immunological barrier, preventing local and systemic invasion and inflammation of pathogenic taxa, resulting in the propagation or causation of organ-specific (liver disease) or systemic diseases (sepsis) in the host. In health, commensal bacteria are involved in regulating pathogenic bacteria, sinister bacterial products, and antigens; and help control and kill pathogenic organisms by secreting antimicrobial metabolites. Gut microbiota also participates in the extraction, synthesis, and absorption of nutrient metabolites, maintains intestinal epithelial integrity and regulates the development, homeostasis, and function of innate and adaptive immune cells. Cirrhosis is associated with local and systemic immune, vascular, and inflammatory changes directly or indirectly linked to perturbations in quality and quantity of intestinal microbiota and intestinal mucosal integrity. Dysbiosis and gut barrier dysfunction are directly involved in the pathogenesis of compensated cirrhosis and the type and severity of complications in decompensated cirrhosis, such as bacterial infections, encephalopathy, extrahepatic organ failure, and progression to acute on chronic liver failure. This paper reviews the normal gut barrier, gut barrier dysfunction, and dysbiosis-associated clinical events in patients with cirrhosis. The role of dietary interventions, antibiotics, prebiotics, probiotics, synbiotics, and healthy donor fecal microbiota transplantation (FMT) to modulate the gut microbiota for improving patient outcomes is further discussed.

Section snippets

Gut barrier dysfunction in cirrhosis

The gut and liver communicate bidirectionally through the portal venous system, biliary tract, and indirectly via systemic circulation. Recent evidence has shed light on the importance of translocation of bacteria, bacterial products, and metabolites from the intestinal lumen into the systemic circulation as contributing factors in the pathogenesis of various liver diseases and portal hypertensive complications. Cirrhosis is associated with local and systemic immune, vascular, and inflammatory

Gut microbiota changes and its clinical implication in cirrhosis

Dysbiosis and GB dysfunction are directly involved in the pathogenesis of compensated cirrhosis and the type and severity of complications in decompensated cirrhosis, such as bacterial infections and encephalopathy. The role of GM in chronic liver disease, worsening small intestinal bacterial overgrowth, and associated complications have been well studied in animal models of chronic liver disease 36,37. Similarly, metagenomic studies in cirrhotic mice have shown Staphylococcaceae,

Outcomes of gut microbiota modulation in severe liver disease and cirrhosis

In cirrhosis, dietary modifications, antibiotics, prebiotics, probiotics, synbiotics, and healthy donor fecal microbiota transplantation (FMT) have been utilized to modulate the GM. In an important study between Turkish and American patients with cirrhosis, Bajaj et al showed that dietary habits were significant in determining clinical outcomes. The Mediterranean diet was particularly beneficial. The Turkish cohort had a significantly higher microbial diversity than the Americans, while the

Credit authorship contribution statement

Cyriac Abby Philips: Conceptualization, Data curation, Writing – original draft preparation, reviewing and editing. Philip Augustine: Data curation, Supervision and writing-revised draft preparation, editing

Conflicts of interest

The authors have none to declare.

Funding

None.

Author disclosures

Philips CA and Augustine P have no disclosures.

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