Presenilin–1 is Processed into Two Major Cleavage Products in Neuronal Cell Lines

Robin V. Ward , John B. Davis , Carol W. Gray , Amanda J.L. Barton , Laura G. Bresciani , Matilde Caivano , Vivienne F. Murphy , Karen Duff , Michael Hutton , John Hardy , Gareth W. Roberts , Eric H. Karran
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引用次数: 31

Abstract

Presenilin 1 (PS–1) has been identified as the protein encoded by the chromosome 14 locus that, when mutated, leads to familial Alzheimer's disease (FAD). Using PS–1 transfected SHSY5Y neuroblastoma cells, we have demonstrated by immunodetection, using polyclonal antibodies, that PS–1 is processed to give two fragments: an N–terminal 28 kDa fragment, and a C–terminal 18 kDa fragment. In a number of non-transfected cell types, most PS–1 is detected as the cleaved products. The molecular weights of the PS–1 cleavage products suggest that the cleavage point will most probably be within a region of the hydrophilic loop domain coded for by either exon 8 or 9 of the PS–1 gene. The clustering of FAD mutations within exon 8 strongly suggests that it encodes a key functional domain. It seems likely that the cleavage of PS–1 is crucial to some aspect of its functionality. An understanding of this process will give insights into the pathology of AD, and may offer new opportunities for therapeutic intervention.

早老素- 1在神经细胞系中被加工成两种主要的分裂产物
早老素1 (PS-1)已被确定为14号染色体位点编码的蛋白,当发生突变时,可导致家族性阿尔茨海默病(FAD)。使用PS-1转染的SHSY5Y神经母细胞瘤细胞,我们使用多克隆抗体通过免疫检测证明,PS-1被处理后产生两个片段:n端28 kDa片段和c端18 kDa片段。在许多未转染的细胞类型中,大多数PS-1被检测为裂解产物。PS-1裂解产物的分子量表明,裂解点很可能位于PS-1基因外显子8或9编码的亲水性环结构域区域内。FAD突变聚集在外显子8内,强烈表明它编码了一个关键的功能域。PS-1的分裂似乎对其功能的某些方面至关重要。了解这一过程将有助于深入了解阿尔茨海默病的病理,并可能为治疗干预提供新的机会。
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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