肝细胞从天然和变性转铁蛋白摄取肝铁的机制及其亚细胞代谢。
The mechanism of hepatic iron uptake from native and denatured transferrin and its subcellular metabolism in the liver cell.
作者信息
Milsom J P, Batey R G
出版信息
Biochem J. 1979 Jul 15;182(1):117-25. doi: 10.1042/bj1820117.
Hepatic iron uptake and metabolism were studied by subcellular fractionation of rat liver homogenates after injection of rats with a purified preparation of either native or denatured rat transferrin labelled with 125I and 59Fe. (1) With native transferrin, hepatic 125I content was maximal 5 min after injection and then fell. Hepatic 59Fe content reached maximum by 16 h after injection and remained constant for 14 days. Neither label appeared in the mitochondrial or lysosomal fractions. 59Fe appeared first in the supernatant and, with time, was detectable as ferritin in fractions sedimented with increasingly lower g forces. (2) With denatured transferrin, hepatic content of both 125I and 59Fe reached maximum by 30 min. Both appeared initially in the lysosomal fraction. With time, they passed into the supernatant and 59Fe became incorporated into ferritin. The study suggests that hepatic iron uptake from native transferrin does not involve endocytosis. However, endocytosis of denatured transferrin does occur. After the uptake process, iron is gradually incorporated into ferritin molecules, which subsequently polymerize; there is no incorporation into other structures over 14 days.
给大鼠注射用¹²⁵I和⁵⁹Fe标记的天然或变性大鼠转铁蛋白的纯化制剂后,通过大鼠肝脏匀浆的亚细胞分级分离来研究肝脏铁摄取和代谢。(1) 对于天然转铁蛋白,肝脏¹²⁵I含量在注射后5分钟达到最大值,然后下降。肝脏⁵⁹Fe含量在注射后16小时达到最大值,并在14天内保持恒定。两种标记物均未出现在线粒体或溶酶体组分中。⁵⁹Fe首先出现在上清液中,随着时间的推移,在以越来越低的离心力沉降的组分中可检测到作为铁蛋白的⁵⁹Fe。(2) 对于变性转铁蛋白,肝脏¹²⁵I和⁵⁹Fe含量在30分钟时达到最大值。两者最初都出现在溶酶体组分中。随着时间的推移,它们进入上清液,并且⁵⁹Fe被整合到铁蛋白中。该研究表明,从天然转铁蛋白摄取肝脏铁不涉及内吞作用。然而,变性转铁蛋白的内吞作用确实发生。在摄取过程之后,铁逐渐被整合到铁蛋白分子中,随后铁蛋白分子聚合;在14天内没有整合到其他结构中。
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