新生大鼠与成年大鼠的维生素A动力学：基于模型的房室分析比较

Vitamin A kinetics in neonatal rats vs. adult rats: comparisons from model-based compartmental analysis.

作者信息

Tan Libo, Green Michael H, Ross A Catharine

机构信息

Department of Nutritional Sciences, and.

Department of Nutritional Sciences, and The Huck Institutes for the Life Sciences, The Pennsylvania State University, University Park, PA

出版信息

J Nutr. 2015 Mar;145(3):403-10. doi: 10.3945/jn.114.204065. Epub 2014 Dec 24.

DOI:10.3945/jn.114.204065

PMID:25540407

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4336526/

Abstract

A critical role for vitamin A (VA) in development is well established, but still relatively little is known about whole-body VA metabolism in early postnatal life. Recently, methods of mathematical modeling have begun to shed light on retinol kinetics in the postnatal growth period and on the effect of retinoid supplementation on retinol kinetics. Comparison of kinetic parameters from tracer studies in neonatal rats with those previously determined in models of VA metabolism in the adult suggests both similarities and differences in the relative transfer rates of plasma retinol to extrahepatic tissues, resulting in similarities and differences in kinetic parameters and inferences about physiologic processes. Similarities between neonatal and adult models include the capacity for efficient digestion and absorption of VA; characteristics of a high-response system; extensive retinol recycling among liver, plasma, and extrahepatic tissues; and comparable VA disposal rates. Differences between neonatal and adult models include that, in neonates, retinol turnover is faster and retinol recycling is much more extensive; there is a greater role for extrahepatic tissues in the uptake of chylomicron VA; and the intestine plays an important role in chylomicron VA uptake, especially in neonatal rats treated with a supplement containing VA. In summary, retinol kinetic modeling in the neonatal rat has provided a first view of whole-body VA metabolism in this age group and suggests that VA kinetics in neonatal rats differs in many ways from that in adults, perhaps reflecting an adaption to the lower VA concentration found in neonates compared with adults.

摘要

维生素A（VA）在发育过程中的关键作用已得到充分证实，但对于出生后早期的全身VA代谢仍知之甚少。最近，数学建模方法已开始揭示出生后生长阶段的视黄醇动力学以及类视黄醇补充对视黄醇动力学的影响。将新生大鼠示踪研究的动力学参数与先前在成体VA代谢模型中确定的参数进行比较，结果表明血浆视黄醇向肝外组织的相对转运速率既有相似之处也有差异，这导致了动力学参数以及对生理过程推断的异同。新生模型与成体模型的相似之处包括VA的高效消化和吸收能力；高反应系统的特征；肝、血浆和肝外组织之间广泛的视黄醇循环；以及相当的VA处置率。新生模型与成体模型的差异包括，在新生儿中，视黄醇周转更快且视黄醇循环更为广泛；肝外组织在乳糜微粒VA摄取中发挥更大作用；并且肠道在乳糜微粒VA摄取中起重要作用，尤其是在接受含VA补充剂治疗的新生大鼠中。总之，新生大鼠的视黄醇动力学建模首次呈现了该年龄组的全身VA代谢情况，并表明新生大鼠的VA动力学在许多方面与成体不同，这可能反映了与成体相比新生大鼠VA浓度较低的一种适应性变化。

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