Abstract
Mutations in the main intestinal and kidney luminal neutral amino acid transporter B0AT1 (Slc6a19) lead to Hartnup disorder, a condition that is characterized by neutral aminoaciduria and in some cases pellagra-like symptoms. These latter symptoms caused by low-niacin are thought to result from defective intestinal absorption of its precursor l-tryptophan. Since Ace2 is necessary for intestinal B0AT1 expression, we tested the impact of intestinal B0AT1 absence in ace2 null mice. Their weight gain following weaning was decreased, and Na+-dependent uptake of B0AT1 substrates measured in everted intestinal rings was defective. Additionally, high-affinity Na+-dependent transport of l-proline, presumably via SIT1 (Slc6a20), was absent, whereas glucose uptake via SGLT1 (Slc5a1) was not affected. Measurements of small intestine luminal amino acid content following gavage showed that more l-tryptophan than other B0AT1 substrates reach the ileum in wild-type mice, which is in line with its known lower apparent affinity. In ace2 null mice, the absorption defect was confirmed by a severalfold increase of l-tryptophan and of other neutral amino acids reaching the ileum lumen. Furthermore, plasma and muscle levels of glycine and l-tryptophan were significantly decreased in ace2 null mice, with other neutral amino acids displaying a similar trend. A low-protein/low-niacin diet challenge led to differential changes in plasma amino acid levels in both wild-type and ace2 null mice, but only in ace2 null mice to a stop in weight gain. Despite the combination of low-niacin with a low-protein diet, plasma niacin concentrations remained normal in ace2 null mice and no pellagra symptoms, such as photosensitive skin rash or ataxia, were observed. In summary, mice lacking Ace2-dependent intestinal amino acid transport display no total niacin deficiency nor clear pellagra symptoms, even under a low-protein and low-niacin diet, despite gross amino acid homeostasis alterations. © 2012 the American Physiological Society. Show more
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publishedExternal links
Journal / series
American Journal of Physiology. Gastrointestinal and Liver PhysiologyVolume
Pages / Article No.
Publisher
American Physiological SocietySubject
Hartnup disorder; L-tryptophan; Niacin; Angiotensin converting enzyme 2Organisational unit
03727 - Wolfer, David P. / Wolfer, David P.
03520 - Werner, Sabine / Werner, Sabine
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