One of the major objectives of the present study is to isolate the putative beta protein precursor(s) from Alzheimer's disease, Down's syndrome and normal sera, cerebrospinal fluid, urine or tissue and to define if chemical differences exist, i.e. an """"""""amyloidogenic"""""""" isotype in Alzheimer's disease and Down's syndrome. The identification of such an isotype may lead to a specific diagnostic serum or CSF test for Alzheimer's disease by the use of a radioimmunoassay. Another major objective is to define the proteolytic enzyme characteristics of cerebral vessels that are implicated in the cleavage of beta protein precursor to form amyloid fibrils in cerebral vessel walls and those responsible for its proteolysis to form the amyloid fibrils of """"""""senile"""""""" plaques, in order to define proteolytic enzyme differences between cerebral parenchymal cells, e.g. microglia, and endothelial cells, that may explain the differences in vessel and plaque amyloid fibril chemical composition. This study will utilize biochemical procedures extensively for the isolation and characterization of the vascular complement of lysosomal and other proteolytic enzymes. Organotypic endothelial cell cultures will also be employed in this investigation. In the absence of a chemically characterized native amyloid beta protein precursor, the beta protein gene product and its hydrolytic cleavage derivatives will be used as enzyme substrates. The ultimate purpose of this study is to develop reagents selective for the inhibition of cerebral amyloid fibril formation by the prevention of beta protein precursor hydrolysis and, thus, lead to an approach to the therapy of Alzheimer's disease. In addition in vitro radioautographic receptor binding methods will be employed to determine whether the immunohistochemical definition of the beta protein precursor as a receptor-binding protein can be verified. A final objective is to define by chemical, immunochemical and immunohistochemical methods the nature and origin of the paired helical filaments of the neurofibrillary tangles in Alzheimer's disease.
Miller, Michael I; Priebe, Carey E; Qiu, Anqi et al. (2009) Collaborative computational anatomy: an MRI morphometry study of the human brain via diffeomorphic metric mapping. Hum Brain Mapp 30:2132-41 |