1. Novel insights in intestinal and hepatic fructose metabolism: from mice to men
- Author
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Evi Koene, Vera B. Schrauwen-Hinderling, Patrick Schrauwen, and Martijn C.G.J. Brouwers
- Subjects
nonalcoholic fatty liver disease ,Nutrition and Dietetics ,INHIBITION ,aldolase B ,Medicine (miscellaneous) ,colorectal cancer ,SUGAR ,Fructose ,Lipid Metabolism ,MICROBIOTA ,Lipids ,DIETARY FRUCTOSE ,GLUCOSE ,Intestines ,ketohexokinase ,LIPOGENESIS ,Liver ,Cardiovascular Diseases ,Non-alcoholic Fatty Liver Disease ,LIVER FAT ,Animals ,Humans ,GLUCOKINASE - Abstract
PURPOSE OF REVIEW: The rise in fructose consumption in parallel with the current epidemic of obesity and related cardiometabolic disease requires a better understanding of the pathophysiological pathways that are involved. RECENT FINDINGS: Animal studies have shown that fructose has various effects on the intestines that subsequently affect intrahepatic lipid accumulation and inflammation. Fructose adversely affects the gut microbiome - as a producer of endotoxins and intermediates of de novo lipogenesis - and intestinal barrier function. Furthermore, intestinal fructose metabolism shields fructose away from the liver. Finally, fructose 1-phosphate (F1-P) serves as a signal molecule that promotes intestinal cell survival and, consequently, intestinal absorption capacity. Intervention and epidemiological studies have convincingly shown that fructose, particularly derived from sugar-sweetened beverages, stimulates de novo lipogenesis and intrahepatic lipid accumulation in humans. Of interest, individuals with aldolase B deficiency, who accumulate F1-P, are characterized by a greater intrahepatic lipid content. First phase II clinical trials have recently shown that reduction of F1-P, by inhibition of ketohexokinase, reduces intrahepatic lipid content. SUMMARY: Experimental evidence supports current measures to reduce fructose intake, for example by the implementation of a tax on sugar-sweetened beverages, and pharmacological inhibition of fructose metabolism to reduce the global burden of cardiometabolic disease.
- Published
- 2022