Medeiros D M, Shiry L, Samelman T
Department of Human Nutrition and Food Management, Ohio State University, Columbus 43210-1295, USA.
Comp Biochem Physiol A Physiol. 1997 May;117(1):77-87. doi: 10.1016/s0300-9629(96)00365-9.
Hearts from rats fed a copper-deficient (Cu-) diet have decreased levels of nuclear-encoded peptides of cytochrome c oxidase (CCO). Studies were conducted to determine whether iron deficiency would lead to a similar finding, whether mRNA transcripts and the chaperonin heat shock proteins (HSP) 60 and 70 from hearts of Cu- rats were decreased as compared with copper-adequate controls and whether synthesis of mitochondrial and nuclear encoded peptides differed as affected by diet copper. In study 1, weanling rats were assigned to one of three groups (n = 6 in each group): (1) control copper and iron adequate fed rats; (2) Cu- rats and (3) iron-deficient (Fe-) rats. Western blotting of nonmyofibrillar cardiac proteins revealed that the nuclear encoded peptides of CCO from the Cu- rats were markedly decreased as compared with control and Fe- rats. Mitochondrial encoded subunits did not appear to differ by treatment groups. Iron-deficient rats had similar nuclear encoded peptide levels as those of controls. In study 2, mRNA transcripts from Cu- (n = 4) and control copper adequate (n = 4) rats did not appear to differ for subunits II and IV, which correspond to mitochondrial and nuclear encoded subunits, respectively. In study 3, levels of HSP 60 and 70 from hearts of Cu- rats (n = 3) did not differ from Cu+ rats (n = 3). In study 4, infusion of 3H-(4,5)-leucine into the hearts of Cu+ and Cu- rats suggested there was no difference in synthesis of the nuclear encoded peptides by copper status and some indication there was enhanced breakdown of the nuclear encoded peptides among the Cu- rats. As expected, more isotope was incorporated into the mitochondria of Cu- rats than Cu+ rats. These results demonstrate an independent effect of copper upon the apparent decrease in the nuclear encoded subunits of CCO, the effect of copper upon the CCO subunits is probably post-transcriptional and that translocation of the nuclear encoded subunits from the ribosomes to the mitochondria via the chaperonin proteins is not a primary defect in explaining these observations in hearts from Cu- rats and synthesis of the nuclear encoded subunits of CCO in not impaired in copper deficiency.
喂食缺铜(Cu-)日粮的大鼠心脏中,细胞色素c氧化酶(CCO)的核编码肽水平降低。开展了多项研究以确定缺铁是否会导致类似结果,与铜充足的对照组相比,缺铜大鼠心脏中的mRNA转录本以及伴侣蛋白热休克蛋白(HSP)60和70是否减少,以及日粮铜对线粒体和核编码肽合成的影响是否不同。在研究1中,将断奶大鼠分为三组之一(每组n = 6):(1)对照铜和铁充足的喂食大鼠;(2)缺铜大鼠;(3)缺铁(Fe-)大鼠。对非肌原纤维心脏蛋白进行的蛋白质印迹分析显示,与对照大鼠和缺铁大鼠相比,缺铜大鼠中CCO的核编码肽明显减少。线粒体编码亚基在各处理组之间似乎没有差异。缺铁大鼠的核编码肽水平与对照组相似。在研究2中,缺铜(n = 4)和对照铜充足(n = 4)大鼠的亚基II和IV的mRNA转录本似乎没有差异,亚基II和IV分别对应线粒体和核编码亚基。在研究3中,缺铜大鼠(n = 3)心脏中的HSP 60和70水平与铜充足大鼠(n = 3)没有差异。在研究4中,向铜充足和缺铜大鼠心脏中注入3H-(4,5)-亮氨酸表明,铜状态对核编码肽合成没有差异,并且有迹象表明缺铜大鼠中核编码肽的分解增强。正如预期的那样,缺铜大鼠线粒体中掺入的同位素比铜充足大鼠更多。这些结果表明,铜对CCO核编码亚基的明显减少具有独立作用,铜对CCO亚基的作用可能是转录后作用,并且通过伴侣蛋白将核编码亚基从核糖体转运到线粒体不是解释缺铜大鼠心脏中这些观察结果的主要缺陷,并且铜缺乏时CCO核编码亚基的合成未受损。
