AI Article Synopsis
- Arginine is crucial for neonatal growth, but the intestine can't produce enough on its own to meet demands.
- Research in neonatal piglets shows that while proline is an effective precursor for arginine synthesis, glutamate does not contribute significantly.
- The study indicates that dietary arginine levels greatly influence the body's ability to synthesize arginine from proline, highlighting the importance of adequate arginine intake in neonates.
Article Abstract
Arginine is conditionally indispensable in the neonate, and its synthesis in the intestine is not sufficient to meet requirements. It is not known how neonatal endogenous arginine synthesis is regulated and the degree to which proline and glutamate are used as precursors. Primed, constant intraportal and intragastric infusions of L-[U-14C]proline and L-[3,4-3H]glutamate, and intragastric L-[guanido-14C]arginine were used to measure whole body and first-pass intestinal arginine synthesis in 10 neonatal piglets fed generous (1.80 g.kg(-1).day(-1)) or deficient (0.20 g.kg(-1).day(-1)) quantities of arginine for 5 days. Glutamate tracer was not detected in arginine, indicating a biologically insignificant conversion of <1% of arginine flux. Endogenous arginine synthesis from proline had obligatory (0.36 g.kg(-1).day(-1)) and maximal (0.68 g.kg(-1).day(-1)) levels (P < 0.05, pooled SE 0.05). Although first-pass gut metabolism is responsible for 42-63% of whole body arginine synthesis, the gut is incapable of upregulating proline to arginine conversion during arginine deficiency, compared with a more than threefold increase without first-pass gut metabolism. These data suggest that upregulation of proline-to-arginine conversion occurs via increased arterial extraction of proline by the gut or in nonintestinal tissues. This study demonstrates that dietary arginine is an important regulator of endogenous arginine synthesis in the neonatal piglet and that proline, but not glutamate, is an important precursor for arginine synthesis in the neonate.
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| http://dx.doi.org/10.1152/ajpendo.00342.2003 | DOI Listing |
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