Effects of cadmium, copper, and zinc and beta APP processing and turnover in COS-7 and PC12 cells. Relationship to Alzheimer disease pathology.

M Smedman, A Potempska, R Rubenstein, W Ju, N Ramakrishna, R B Denman
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引用次数: 1

Abstract

The effects of cadmium, copper, and zinc on beta APP metabolism were investigated in COS-7 and PC12 cells. Cadmium chloride (CdCl2) increased beta APP steady-state protein levels and decreased beta APP posttranslational processing. These changes were not accompanied by alterations in beta APP mRNA levels or splicing. In addition, cytosolic alpha-actin and G3PDH levels were not affected. Further, neither zinc (ZnCl2) nor copper (CuSO4) altered beta APP levels or affected its normal processing. Pulse-chase studies revealed that the rate of beta APP maturation decreased twofold in the presence of 25 microM CdCl2 compared to untreated controls. beta APP secretion from the cell also dramatically slowed. These two factors result in the accumulation of partially processed beta APP inside cells. The presence of CdCl2 also decreased the amount of an 8-kDa beta APP C-terminal fragment, indicating that the cellular compartment in which beta APP accumulates is not accessible to alpha-secretase. Studies using Brefeldin A suggest that this compartment may be the cis or medial Golgi. However, A beta production was proportionately increased. These data show that CdCl2 can modulate the beta APP cleavage to favor A beta. Finally, beta APP mis- metabolism was shown to be unrelated to the hsp70 induction elicited by CdCl2; both heat shock and CuSO4 induced hsp70 but had no effect on steady-state levels of beta APP, although heat shock did slow beta APP maturation. These data indicate that hsp70 alone cannot chaperone beta APP through an alternate processing pathway leading to A beta production.

镉、铜和锌对COS-7和PC12细胞β - APP加工和转化的影响。与阿尔茨海默病病理关系。
研究了镉、铜和锌对COS-7和PC12细胞β - APP代谢的影响。氯化镉(CdCl2)增加β APP稳态蛋白水平,降低β APP翻译后加工。这些变化不伴有β APP mRNA水平或剪接的改变。此外,胞浆α -肌动蛋白和G3PDH水平未受影响。此外,锌(ZnCl2)和铜(CuSO4)都没有改变beta APP水平或影响其正常加工。脉冲追踪研究显示,与未经治疗的对照组相比,在25微米CdCl2存在下,β - APP成熟率降低了两倍。细胞分泌β - APP的速度也显著减慢。这两个因素导致细胞内部分加工的β APP积累。CdCl2的存在也减少了8 kda β - APP c端片段的数量,表明α -分泌酶无法进入β - APP积累的细胞区室。使用Brefeldin A的研究表明,这个隔室可能是顺式或内侧高尔基体。然而,A β产量按比例增加。这些数据表明CdCl2可以调节β - APP的裂解,使其有利于A β。最后,β APP代谢异常与CdCl2诱导的hsp70无关;热休克和CuSO4均诱导了hsp70,但对β APP的稳态水平没有影响,尽管热休克确实减缓了β APP的成熟。这些数据表明单独的hsp70不能通过另一种导致A β产生的加工途径来陪伴β APP。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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