Dietary Threonine Restriction Specifically Reduces Intestinal Mucin Synthesis in Rats

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Nutrient Metabolism

Dietary Threonine Restriction Specifically Reduces Intestinal Mucin Synthesis in Rats

Magali Faure¹, Denis Moënnoz, Franck Montigon, Christine Mettraux, Denis Breuillé and Olivier Ballèvre

Nestlé Research Center, Nutrition and Health Department, Lausanne, Switzerland

¹To whom correspondence should be addressed. E-mail: magali.faure{at}rdls.nestle.com.

We determined whether the steady-state levels of intestinalmucins are more sensitive than total proteins to dietary threonineintake. For 14 d, male Sprague-Dawley rats (158 ± 1 g,n = 32) were fed isonitrogenous diets (12.5% protein) containing30% (group 30), 60% (group 60), 100% (control group), or 150%(group 150) of the theoretical threonine requirement for growth.All groups were pair-fed to the mean intake of group 30. Themucin and mucosal protein fractional synthesis rates (FSR) didnot differ from controls in group 60. By contrast, the mucinFSR was significantly lower in the duodenum, ileum, and colonof group 30 compared with group 100, whereas the correspondingmucosal protein FSR did not differ. Because mucin mRNA levelsdid not differ between these 2 groups, mucin production in group30 likely was impaired at the translational level. Our resultsclearly indicate that restriction of dietary threonine significantlyand specifically impairs intestinal mucin synthesis. In clinicalsituations associated with increased threonine utilization,threonine availability may limit intestinal mucin synthesisand consequently reduce gut barrier function.

KEY WORDS: • mucins • threonine • protein synthesis • intestine • rats

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