Citrulline is an effective arginine precursor in enterally fed neonatal piglets.

Although neonatal piglets can synthesize some arginine from proline, there is a limit to this synthesis, and piglets fed an arginine-deficient diet have diminished whole-body arginine status. To help elucidate where the limitation in arginine synthesis may occur, our objective was to determine the most effective arginine precursor in 1-wk-old enterally fed piglets. Piglets were administered either an arginine-deficient (basal) diet [1.15 mmol arginine/(kg.d)] or the basal diet supplemented with equimolar [9.18 mmol/(kg.d)] amounts of proline (+Pro), ornithine (+Orn), citrulline (+Cit) or arginine (+Arg) for 5 d (n = 5/diet). Daily blood samples were taken and indicators of whole-body arginine status including plasma amino acid, ammonia, and urea concentrations were measured. A primed, constant intragastric (i.g.) infusion of l-[U-(14)C]proline was given to measure the proline to arginine conversion, and intravenous (i.v.) and i.g. infusions of l-[guanido-(14)C]arginine were given to determine arginine flux and to quantify the splanchnic extraction of dietary arginine. Piglets fed the +Cit and +Arg diets had lower plasma ammonia and urea concentrations (P < 0.05) and higher plasma arginine concentrations (P < 0.0001) and arginine fluxes (P < 0.05) than piglets fed the other 3 diets. Piglets fed +Cit and +Arg had a lower proline to arginine conversion (P < 0.05). During first-pass splanchnic metabolism, 52% of the dietary arginine was extracted, and this extraction was not affected by whole-body arginine status (P > 0.05). These data indicate that citrulline, but not ornithine or proline, is an effective arginine precursor, and that either citrulline formation or availability appears to limit arginine synthesis in neonatal piglets.