Mechanisms of Ageing and Development

Phosphocreatine is an energy buffer and transducer in the heart, the brain and the skeletal muscle. Recently, we have demonstrated the presence of the Na+/Cl−/creatine transporter at the apical membrane of the small intestinal epithelium. Herein the ontogeny and segmental distribution of rat intestinal creatine transport activity are investigated. [14C]-Creatine uptake was measured in the jejunum and ileum of 16 day gestation foetuses, newborn, suckling, weaning, 1-, 2-, 7- and 12-month-old (adult) rats. Creatine content in amniotic fluid, in rat and commercial milk and in rat chow, was measured by HPLC. NaCl-dependent creatine uptake was maximal in newborn rats and, in all the ages tested, higher in the ileum than in the jejunum. In the latter, NaCl-dependent creatine uptake was undetectable after weaning. Kinetic studies revealed that the jejunum and ileum have the same creatine uptake system, and that maturation decreases its V max but not the apparent K m. Maintenance of the pups on a commercial milk diet supplemented with creatine prevented the ileal periweaning decline in creatine uptake activity, but not that in the jejunum. In 1-month-old rats, supplementation with creatine increased ileal, but not jejunal, creatine uptake. The results demonstrate for the first time that: (i) creatine uptake along the length of the small intestine is mediated by the same transport system, (ii) the activity of this transport system changes in a specific manner with maturation and (iii) these changes appear to be genetically programmed and controlled by the intestinal creatine content.