Bondareff W, Wischik C M, Novak M, Roth M
Department of Psychiatry and Biological Sciences, University of Southern California, Los Angeles 90033.
Am J Pathol. 1991 Sep;139(3):641-7.
Antibodies directed against three regions of tau have been used in a histologic study of granulovacuolar degeneration (GVD) in Alzheimer's disease (AD). Granulovascular degeneration complexes, consisting of a dense granule in a less-dense vacuole, were found in hippocampal pyramidal neurons in all patients studied. Anti-tau antibodies directed against the N-and C-termini, and the repeat region of tau, were found to immunolabel the granule of the GVD complex. Intracellular neurofibrillary tangles also were labeled by these antibodies. In particular, MAb6.423, which recognizes tau protein sequestered in paired helical filaments (PHF) in AD, but not the normal tau proteins so far described in human brain, labeled GVD granules. Contrarily, a generic tau marker (MAb7.51), which immunolabels all known isoforms of isolated and expressed tau protein, including PHF-tau, did not label the GVD granule. These findings demonstrate that the entire tau molecule is sequestered within the GVD granule, and that the tau protein found in GVD complexes is antigenically related to that found in PHFs. There is, however, a difference in the way in which the repeat region of tau is incorporated into the two structures, making the MAb7.51 epitope unavailable in the GVD complex. These findings suggest that the formation of GVD complexes in hippocampal pyramidal neurons vulnerable to neurofibrillary degeneration may represent an alternative pathway for dealing with an aberrant molecular complex, which contributes to the formation of GVD granules and neurofibrillary tangles in AD.
针对tau蛋白三个区域的抗体已被用于阿尔茨海默病(AD)中颗粒空泡变性(GVD)的组织学研究。在所有研究的患者的海马锥体细胞中均发现了由低密度空泡内的致密颗粒组成的颗粒空泡变性复合体。发现针对tau蛋白N端和C端以及tau重复区域的抗tau抗体可对GVD复合体的颗粒进行免疫标记。细胞内神经原纤维缠结也被这些抗体标记。特别是,单克隆抗体6.423可识别AD中存在于双螺旋丝(PHF)中的tau蛋白,但不能识别迄今为止在人脑中描述的正常tau蛋白,它可标记GVD颗粒。相反,一种通用的tau标记物(单克隆抗体7.51)可对分离和表达的tau蛋白的所有已知异构体(包括PHF-tau)进行免疫标记,但不能标记GVD颗粒。这些发现表明,整个tau分子被隔离在GVD颗粒内,并且在GVD复合体中发现的tau蛋白在抗原性上与在PHF中发现的tau蛋白相关。然而,tau蛋白重复区域整合到这两种结构中的方式存在差异,使得单克隆抗体7.51的表位在GVD复合体中不可用。这些发现表明,在易发生神经原纤维变性的海马锥体细胞中形成GVD复合体可能代表了一种处理异常分子复合体的替代途径,这有助于AD中GVD颗粒和神经原纤维缠结的形成。
