Ninomiya H, Roch J M, Jin L W, Saitoh T
Department of Neurosciences, School of Medicine, University of California-San Diego, La Jolla 92093-0624.
J Neurochem. 1994 Aug;63(2):495-500. doi: 10.1046/j.1471-4159.1994.63020495.x.
Recent studies have identified the Alzheimer's disease amyloid beta/A4 protein precursor (APP) as a trophic and/or tropic protein on several types of cells, including fibroblasts, primary culture neurons, PC12 cells, and B103 neuron-like cells. Many trophic proteins bind heparin, and it is believed that the heparin-binding domain is crucial for the trophic activity of these proteins. APP also binds heparin. The current studies were undertaken to examine the hypothesis that the neuritotropic activity of APP requires heparin binding. It was found that APP produced in E. coli bound B103 cells through detergent-extractable molecules. Approximately 50% of the binding sites were heparinase-sensitive, and heparin and heparan sulfate competed for APP binding to these sites. The heparinase-insensitive sites were recognized by a stretch of 17 amino acids of APP (residues 319-335) that contains the neuritotropic activity of APP. A mutant APP with a deletion at this site was capable of binding to the heparinase-sensitive sites, although this molecule was not neuritotropic to B103 neuron-like cells. Therefore, the neuritotropic site and the heparin-binding site are distinct in APP, and the neuritotropic effect of APP is produced through its binding to detergent-extractable and heparinase-insensitive sites.
最近的研究已将阿尔茨海默病β淀粉样蛋白/A4蛋白前体(APP)鉴定为几种类型细胞(包括成纤维细胞、原代培养神经元、PC12细胞和B103神经元样细胞)上的一种营养性和/或向性蛋白。许多营养性蛋白可结合肝素,并且人们认为肝素结合结构域对于这些蛋白的营养活性至关重要。APP也能结合肝素。开展当前这些研究是为了检验APP的向神经突活性需要肝素结合这一假说。结果发现,大肠杆菌中产生的APP通过可被去污剂提取的分子与B103细胞结合。大约50%的结合位点对肝素酶敏感,并且肝素和硫酸乙酰肝素竞争APP与这些位点的结合。APP的一段17个氨基酸(第319 - 335位残基)可识别对肝素酶不敏感的位点,该区域包含APP的向神经突活性。在此位点有缺失的突变型APP能够结合对肝素酶敏感的位点,尽管该分子对B103神经元样细胞没有向神经突作用。因此,APP中的向神经突位点和肝素结合位点是不同的,并且APP的向神经突作用是通过其与可被去污剂提取且对肝素酶不敏感的位点结合产生的。
