Threonine metabolism in the intestine of mice: Loss of mucin 2 induces the threonine catabolic pathway
Objectives: Previous studies have shown that the intestine uses a major part of the dietary threonine intake for the synthesis of the structural component of the protective intestinal mucus layer, the secretory mucin Muc2. In this context, the high intestinal demand for dietary threonine probably results from its incorporation into secretory mucins rich in threonine residues. Therefore, we compared threonine utilization in the colon of Muc2 knockout (Muc2-/-) and wild-type (Muc2+/+) mice to investigate the intestinal dietary threonine metabolism in the absence of Muc2, which results in inflammation of the colon. Materials and Methods: Concentrations and isotopic enrichment of threonine were measured by gas chromatographyisotope ratio mass spectrometry in the serum, colon, and colonic content of mice given a bolus [U-13C]threonine enterally. Results: We retrieved 37.8% and 40.9% of dietary threonine in Muc2+/+and Muc2-/-mice, respectively, either as free or incorporated threonine. There were no major differences in the availability and concentration of free or incorporated threonine recovered in both serum and colon in both types of mice. However, the Muc2-/-mice did show overall significantly higher threonine oxidation rates compared with Muc2+/+mice. Conclusions: In the absence of Muc2, dietary threonine is mainly used for constitutive protein synthesis or becomes a substrate for metabolic oxidation. This indicates that inflammation also requires high threonine amounts. JPGN 49:99-107, 2009.
|Keywords||Colon, Glycine, Metabolism, Mucin 2, Threonine|
|Persistent URL||dx.doi.org/10.1097/MPG.0b013e3181a23dbe, hdl.handle.net/1765/24731|
van der Sluis, S.M, Schaart, M.W, Koning, de, B.A.E, Schierbeek, H, Velcich, A, Renes, I.B, & van Goudoever, J.B. (2009). Threonine metabolism in the intestine of mice: Loss of mucin 2 induces the threonine catabolic pathway. Journal of Pediatric Gastroenterology and Nutrition, 49(1), 99–107. doi:10.1097/MPG.0b013e3181a23dbe