Intestinal Absorption of Fructose

Increased understanding of fructose metabolism, which begins with uptake via the intestine, is important because fructose now constitutes a physiologically significant portion of human diets and is associated with increased incidence of certain cancers and metabolic diseases. New insights in our kno...

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Published in	Annual review of nutrition Vol. 38; p. 41
Main Authors	Ferraris, Ronaldo P, Choe, Jun-Yong, Patel, Chirag R
Format	Journal Article
Language	English
Published	United States 21.08.2018
Subjects	Animals Biological Transport Diet Fructose - metabolism Gene Expression Regulation Humans Intestines - physiology carbohydrates nutrition metabolism sugars GLUT ligand recognition
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Abstract	Increased understanding of fructose metabolism, which begins with uptake via the intestine, is important because fructose now constitutes a physiologically significant portion of human diets and is associated with increased incidence of certain cancers and metabolic diseases. New insights in our knowledge of intestinal fructose absorption mediated by the facilitative glucose transporter GLUT5 in the apical membrane and by GLUT2 in the basolateral membrane are reviewed. We begin with studies related to structure as well as ligand binding, then revisit the controversial proposition that apical GLUT2 is the main mediator of intestinal fructose absorption. The review then describes how dietary fructose may be sensed by intestinal cells to affect the expression and activity of transporters and fructolytic enzymes, to interact with the transport of certain minerals and electrolytes, and to regulate portal and peripheral fructosemia and glycemia. Finally, it discusses the potential contributions of dietary fructose to gastrointestinal diseases and to the gut microbiome.
AbstractList	Increased understanding of fructose metabolism, which begins with uptake via the intestine, is important because fructose now constitutes a physiologically significant portion of human diets and is associated with increased incidence of certain cancers and metabolic diseases. New insights in our knowledge of intestinal fructose absorption mediated by the facilitative glucose transporter GLUT5 in the apical membrane and by GLUT2 in the basolateral membrane are reviewed. We begin with studies related to structure as well as ligand binding, then revisit the controversial proposition that apical GLUT2 is the main mediator of intestinal fructose absorption. The review then describes how dietary fructose may be sensed by intestinal cells to affect the expression and activity of transporters and fructolytic enzymes, to interact with the transport of certain minerals and electrolytes, and to regulate portal and peripheral fructosemia and glycemia. Finally, it discusses the potential contributions of dietary fructose to gastrointestinal diseases and to the gut microbiome.
Author	Patel, Chirag R Ferraris, Ronaldo P Choe, Jun-Yong
Author_xml	– sequence: 1 givenname: Ronaldo P surname: Ferraris fullname: Ferraris, Ronaldo P email: ferraris@njms.rutgers.edu organization: Department of Pharmacology, Physiology and Neuroscience, New Jersey Medical School, Rutgers University, Newark, New Jersey 07946, USA; email: ferraris@njms.rutgers.edu – sequence: 2 givenname: Jun-Yong surname: Choe fullname: Choe, Jun-Yong email: junyong.choe@rosalindfranklin.edu organization: Department of Biochemistry and Molecular Biology, Rosalind Franklin University of Medicine and Science, The Chicago Medical School, North Chicago, Illinois 60064, USA; email: junyong.choe@rosalindfranklin.edu – sequence: 3 givenname: Chirag R surname: Patel fullname: Patel, Chirag R email: chirag.pharmacy@gmail.com organization: Independent Drug Safety Consulting, Wilmington, Delaware 19803, USA; email: chirag.pharmacy@gmail.com
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/29751733$$D View this record in MEDLINE/PubMed
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SubjectTerms	Animals Biological Transport Diet Fructose - metabolism Gene Expression Regulation Humans Intestines - physiology
Title	Intestinal Absorption of Fructose
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