Department of Nutrition, University of California, 95616, Davis, California.
Biol Trace Elem Res. 1985 Feb;7(1):31-48. doi: 10.1007/BF02916545.
The influence of manganese deficiency on liver trace element concentration, MnSOD activity, and mitochondrial structure and function during postnatal development was determined in rats. In both normal and manganese-deficient animals, liver manganese concentration increased with time, but in deficient rats liver manganese was lower than in controls at all ages measured. At 9 mo of age, liver manganese concentration in the deficient rats was only 20% that of controls. The developmental pattern observed for MnSOD paralleled that of liver manganese concentration in normal and deficient rats; it was lower than in controls on days 20 and 60. However, at 9 mo of age, MnSOD levels were similar in the two groups. Although there were no differences at 9 mo of age in MnSOD activity between the groups, manganese-deficient rats showed mitochondrial abnormalities in liver. Despite mitochondrial abnormalities, however, oxygen uptake and P/O ratios were normal. We suggest that the mitochondrial damage apparent at 9 mo of age is, at least in part, the result of lower than normal MnSOD activity occurring earlier. The functional significance of the abnormalities remains to be established.
本研究旨在探讨锰缺乏对发育期大鼠肝脏微量元素浓度、MnSOD 活性、线粒体结构和功能的影响。结果发现,正常和锰缺乏组大鼠肝脏锰浓度随时间增加,但在整个发育期,锰缺乏组大鼠肝脏锰浓度均显著低于正常组。在 9 月龄时,缺乏组大鼠肝脏锰浓度仅为正常组的 20%。MnSOD 的发育模式与正常和缺乏组大鼠肝脏锰浓度的变化相似;在第 20 天和 60 天,MnSOD 水平显著低于正常组。然而,在 9 月龄时,两组间 MnSOD 水平相似。尽管在 9 月龄时两组间 MnSOD 活性无差异,但锰缺乏大鼠肝脏存在线粒体异常。然而,尽管存在线粒体异常,氧摄取和 P/O 比值仍正常。我们认为,9 月龄时明显的线粒体损伤至少部分是由于早期出现的低于正常水平的 MnSOD 活性所致。这些异常的功能意义仍有待确定。