Institut für Experimentelle Endokrinologie und EnForCé, Charité-Universitätsmedizin, Berlin, Germany.
Biochem J. 2010 Oct 1;431(1):103-11. doi: 10.1042/BJ20100779.
Distribution of selenium (Se) within the mammalian body is mediated by SePP (selenoprotein P), an Se-rich glycoprotein secreted by hepatocytes. Genetic and biochemical evidence indicate that the endocytic receptors ApoER2 (apolipoprotein E receptor 2) and megalin mediate tissue-specific SePP uptake. In the present study megalin-mutant mice were fed on diets containing adequate (0.15 p.p.m.) or low (0.08 p.p.m.) Se content and were analysed for tissue and plasma Se levels, cellular GPx (glutathione peroxidase) activities and protein expression patterns. Megalin-mutant mice displayed increased urinary Se loss, which correlated with SePP excretion in their urine. Accordingly, serum Se and SePP levels were significantly reduced in megalin-mutant mice, reaching marginal levels on the low-Se diet. Moreover, kidney Se content and expression of renal selenoproteins were accordingly reduced, as was SePP internalization along the proximal tubule epithelium. Although GPx4 expression was not altered in testis, Se and GPx activity in liver and brain were significantly reduced. When fed on a low-Se diet, megalin-mutant mice developed impaired movement co-ordination, but no astrogliosis. These findings suggest that megalin prevents urinary SePP loss and participates in brain Se/SePP uptake.
哺乳动物体内的硒(Se)分布由 SePP(硒蛋白 P)介导,SePP 是由肝细胞分泌的富含 Se 的糖蛋白。遗传和生化证据表明,内吞受体 ApoER2(载脂蛋白 E 受体 2)和 megalin 介导组织特异性 SePP 摄取。在本研究中,用含有适量(0.15ppm)或低(0.08ppm)Se 含量的饮食喂养 megalin 突变小鼠,并分析其组织和血浆 Se 水平、细胞 GPx(谷胱甘肽过氧化物酶)活性和蛋白表达模式。megalin 突变小鼠表现出增加的尿硒丢失,这与它们尿液中的 SePP 排泄相关。因此,megalin 突变小鼠的血清 Se 和 SePP 水平显著降低,在低 Se 饮食时达到边缘水平。此外,肾脏 Se 含量和肾脏 selenoprotein 的表达相应减少,沿近端肾小管上皮细胞的 SePP 内化也减少。尽管睾丸中 GPx4 的表达没有改变,但肝脏和大脑中的 Se 和 GPx 活性显著降低。当喂食低 Se 饮食时,megalin 突变小鼠运动协调能力受损,但没有星形胶质细胞增生。这些发现表明 megalin 可防止尿 SePP 丢失,并参与脑 Se/SePP 的摄取。
