The fungal microbiome contributes to alcohol-induced liver damage in mice
Alcoholism contributes to nearly half of liver cirrhosis-related deaths in the United States.
Chronic alcohol abuse is also known to alter the intestinal microbiome, a community of bacteria, fungi, and viruses that coexist in the gut and help maintain immunological and metabolic homeostasis. Whether microbial fluctuations contribute to liver disease in chronic alcohol users is unclear, and the effect of changing intestinal fungal populations has not been previously studied.
A study led by Bernd Schnabl connects alcohol-driven changes in the fungal microbiome to liver disease. The research team at the University of California San Diego discovered that chronic alcohol intake increased fungal populations in the intestine as well as levels of the fungal structural molecule β-glucan in the bloodstream of mice.
The latter result reaffirms prior findings that alcoholism increases the permeability of the intestine and permits gut microbes to leak into circulation. Further investigation revealed that fungal β-glucan activates an immune system receptor called CLEC7A on liver-dwelling immune cells, stimulating a pathway that provokes liver inflammation. Treating mice with anti-fungal agents prevented alcohol-induced fungal overgrowth and reduced signs of liver disease.
The findings of this study support further research into the fungal microbiome’s role in alcohol-related liver damage.
University of California San Diego School of Medicine