膳食铁的逐渐增加与生长大鼠铜稳态病理性紊乱的出现有关。
Progressive Increases in Dietary Iron Are Associated with the Emergence of Pathologic Disturbances of Copper Homeostasis in Growing Rats.
机构信息
Food Science and Human Nutrition Department, University of Florida, Gainesville, FL.
Regenerative Medicine Research Center, Sichuan University, Chengdu, China.
出版信息
J Nutr. 2018 Mar 1;148(3):373-378. doi: 10.1093/jn/nxx070.
BACKGROUND
Consumption of a high-iron diet causes copper deficiency in weanling rodents; however, the minimum amount of dietary iron that disrupts copper homeostasis has not been established.
OBJECTIVE
We tested the hypothesis that dietary iron at only several-fold above physiologic requirements would cause copper depletion.
METHODS
Weanling male Sprague-Dawley rats (n = 6/group) were fed AIN-93G-based diets with adequate (88 µg Fe/g = 1×), or excessive (4×, 9.5×, 18.5×, 38×, or 110×) iron content for 7 wk (110× group, due to notable morbidity) or 8 wk (all other groups). Copper-related physiologic parameters were then assessed.
RESULTS
A hierarchy of copper-related, pathologic symptoms was noted as dietary iron concentrations increased. All statistical comparisons reported here refer to differences from the 1× (i.e., control) group. The highest iron concentration (110×) impaired growth (final body weights decreased ∼40%; P < 0.0001), and caused anemia (blood hemoglobin and hematocrit decreased ∼65%; P < 0.0001) and hepatic copper depletion (>85% reduction; P < 0.01). Cardiac hypertrophy occurred in the 110× (∼130% increase in mass; P < 0.0001) and 38× (∼25% increase; P < 0.05) groups, whereas cardiac copper content was lower in the 110× (P < 0.01), 38× (P < 0.01), and 18.5× (P < 0.05) groups (∼70% reductions). Splenic copper was also depleted in the 110× (>90% reduction; P < 0.0001), and in the 38× (P < 0.001) and 18.5× (P < 0.01) groups (∼70% reductions). Moreover, serum ceruloplasmin activity was decreased in the 110× and 38× (>90% reductions; P < 0.0001), and 18.5× (P < 0.001) and 9.5× (P < 0.05) (∼50% reductions) groups, typifying moderate to severe copper deficiency.
CONCLUSIONS
Increasing dietary iron intakes to ∼9.5-fold above dietary recommendations caused copper deficiency. Importantly, human iron supplementation is common, and recommended intakes for at-risk individuals may be ≤10-fold above the RDA. Whether these iron intakes perturb copper metabolism is worth considering, especially since copper defi-ciency can impair iron utilization (e.g., by decreasing the ferroxidase activity of ceruloplasmin).
背景
在断奶的啮齿动物中,高铁饮食会导致铜缺乏;然而,尚未确定扰乱铜动态平衡的最低膳食铁量。
目的
我们检验了这样一个假设,即仅高于生理需求几倍的饮食铁就会导致铜耗竭。
方法
我们用含有充足(88 µg Fe/g=1×)或过量(4×、9.5×、18.5×、38×或 110×)铁含量的基于 AIN-93G 的饮食喂养雄性 Sprague-Dawley 断奶大鼠(每组 n=6),为期 7 周(110×组由于明显的发病率)或 8 周。然后评估与铜相关的生理参数。
结果
随着膳食铁浓度的增加,观察到一系列与铜相关的病理症状。此处报告的所有统计比较均指与 1×(即对照)组的差异。最高铁浓度(110×)损害生长(最终体重下降约 40%;P<0.0001),并导致贫血(血血红蛋白和血细胞比容下降约 65%;P<0.0001)和肝铜耗竭(>85%减少;P<0.01)。110×(质量增加约 130%;P<0.0001)和 38×(增加约 25%;P<0.05)组发生心脏肥大,而 110×(P<0.01)、38×(P<0.01)和 18.5×(P<0.05)组心脏铜含量降低(约 70%减少)。脾脏铜也在 110×(>90%减少;P<0.0001)和 38×(P<0.001)和 18.5×(P<0.01)组中耗竭(约 70%减少)。此外,血清铜蓝蛋白活性在 110×和 38×(>90%减少;P<0.0001)以及 18.5×(P<0.001)和 9.5×(P<0.05)(约 50%减少)组中降低,表明存在中度至重度铜缺乏。
结论
将膳食铁摄入量增加到推荐量的约 9.5 倍会导致铜缺乏。重要的是,人类铁补充剂很常见,高危人群的推荐摄入量可能≤推荐日摄入量的 10 倍。这些铁摄入量是否会干扰铜代谢值得考虑,特别是因为铜缺乏会损害铁的利用(例如,通过降低铜蓝蛋白的亚铁氧化酶活性)。
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