Capell A, Grünberg J, Pesold B, Diehlmann A, Citron M, Nixon R, Beyreuther K, Selkoe D J, Haass C
Central Institute of Mental Health, Department of Molecular Biology, J5, 68159 Mannheim, Federal Republic of Germany.
J Biol Chem. 1998 Feb 6;273(6):3205-11. doi: 10.1074/jbc.273.6.3205.
Mutations in the presenilin (PS) genes are linked to early onset familial Alzheimer's disease (FAD). PS-1 proteins are proteolytically processed by an unknown protease to two stable fragments of approximately 30 kDa (N-terminal fragment (NTF)) and approximately 20 kDa (C-terminal fragment (CTF)) (Thinakaran, G., Borchelt, D. R., Lee, M. K., Slunt, H. H., Spitzer, L., Kim, G., Ratovitsky, T., Davenport, F., Nordstedt, C., Seeger, M., Hardy, J., Levey, A. I., Gandy, S. E., Jenkins, N. A., Copeland, N. G., Price, D. L., and Sisodia, S. S. (1996) Neuron 17, 181-190). Here we show that the CTF and NTF of PS-1 bind to each other. Fractionating proteins from 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid-extracted membrane preparations by velocity sedimentation reveal a high molecular mass SDS and Triton X-100-sensitive complex of approximately 100-150 kDa. To prove if both proteolytic fragments of PS-1 are bound to the same complex, we performed co-immunoprecipitations using multiple antibodies specific to the CTF and NTF of PS-1. These experiments revealed that both fragments of PS-1 occur as a tightly bound non-covalent complex. Upon overexpression, unclipped wild type PS-1 sediments at a lower molecular weight in glycerol velocity gradients than the endogenous fragments. In contrast, the non-cleavable, FAD-associated PS-1 Deltaexon 9 sediments at a molecular weight similar to that observed for the endogenous proteolytic fragments. This result may indicate that the Deltaexon 9 mutation generates a mutant protein that exhibits biophysical properties similar to the naturally occurring PS-1 fragments. This could explain the surprising finding that the Deltaexon 9 mutation is functionally active, although it cannot be proteolytically processed (Baumeister, R., Leimer, U., Zweckbronner, I., Jakubek, C., Grünberg, J., and Haass, C. (1997) Genes & Function 1, 149-159; Levitan, D., Doyle, T., Brousseau, D., Lee, M., Thinakaran, G., Slunt, H., Sisodia, S., and Greenwald, I. (1996) Proc. Natl. Acad. Sci. U. S. A. 93, 14940-14944). Formation of a high molecular weight complex of PS-1 composed of both endogenous PS-1 fragments may also explain the recent finding that FAD-associated mutations within the N-terminal portion of PS-1 result in the hyperaccumulation not only of the NTF but also of the CTF (Lee, M. K., Borchelt, D. R., Kim, G., Thinakaran, G., Slunt, H. H., Ratovitski, T., Martin, L. J., Kittur, A., Gandy, S., Levey, A. I., Jenkins, N., Copeland, N., Price, D. L., and Sisodia, S. S. (1997) Nat. Med. 3, 756-760). Moreover, these results provide a model to understand the highly regulated expression and processing of PS proteins.
早老素(PS)基因的突变与早发性家族性阿尔茨海默病(FAD)相关。PS-1蛋白被一种未知蛋白酶蛋白水解加工成两个稳定片段,约30 kDa的N端片段(NTF)和约20 kDa的C端片段(CTF)(蒂纳卡兰,G.,博尔切尔特,D. R.,李,M. K.,斯伦特,H. H.,斯皮策,L.,金,G.,拉托维茨基,T.,达文波特,F.,诺德施泰特,C.,西格,M.,哈迪,J.,利维,A. I.,甘迪,S. E.,詹金斯,N. A.,科普兰,N. G.,普赖斯,D. L.,和西索迪亚,S. S.(1996年)《神经元》17卷,181 - 190页)。在此我们表明,PS-1的CTF和NTF相互结合。通过速度沉降对3-[(3-胆酰胺丙基)二甲基铵]-1-丙烷磺酸提取的膜制剂中的蛋白质进行分级分离,发现一种约100 - 150 kDa的高分子量SDS和Triton X-100敏感复合物。为了证明PS-1的两个蛋白水解片段是否结合到同一个复合物上,我们使用了针对PS-1的CTF和NTF的多种抗体进行共免疫沉淀。这些实验表明,PS-1的两个片段以紧密结合的非共价复合物形式存在。过表达时,未切割的野生型PS-1在甘油速度梯度中的沉降分子量低于内源性片段。相反,不可切割的、与FAD相关的PS-1 Deltaexon 9以与内源性蛋白水解片段观察到的分子量相似的分子量沉降。这一结果可能表明,Deltaexon 9突变产生了一种具有与天然存在的PS-1片段相似生物物理性质的突变蛋白。这可以解释一个惊人的发现,即Deltaexon 9突变虽然不能被蛋白水解加工,但在功能上是活跃的(鲍迈斯特,R.,莱默,U.,茨韦克布伦纳,I.,雅库贝克,C.,格伦贝格,J.,和哈斯,C.(1997年)《基因与功能》1卷,149 - 159页;莱维坦,D.,多伊尔,T.,布劳索,D.,李,M.,蒂纳卡兰,G.,斯伦特,H.,西索迪亚,S.,和格林沃尔德,I.(1996年)《美国国家科学院院刊》93卷,14940 - 14944页)。由内源性PS-1片段组成的PS-1高分子量复合物的形成也可以解释最近的发现,即PS-1 N端部分内与FAD相关的突变不仅导致NTF的过度积累,也导致CTF的过度积累(李, M. K., 博尔切尔特, D. R., 金, G., 蒂纳卡兰, G., 斯伦特, H. H., 拉托维茨基, T., 马丁, L. J., 基图尔, A., 甘迪, S., 利维, A. I., 詹金斯, N., 科普兰, N., 普赖斯, D. L., 和西索迪亚, S. S. (1997年) 《自然医学》3卷, 756 - 760页)。此外,这些结果提供了一个模型来理解PS蛋白的高度调控的表达和加工过程。
