Distinct substrate specificities and functional roles for the 78- and 76-kDa forms of mu-calpain in human platelets.

The intracellular thiol protease mu-calpain exists as a heterodimeric proenzyme, consisting of a large 80-kDa catalytic subunit and a smaller 30-kDa regulatory subunit. Activation of mu-calpain requires calcium influx across the plasma membrane and the subsequent autoproteolytic conversion of the 80-kDa large subunit to a 78-kDa "intermediate" and a 76-kDa fully autolyzed form. Currently, there is limited information on the substrate specificities and functional roles of these distinct active forms of mu-calpain within the cell.

Amino- and carboxyl-terminal heterogeneity of beta-amyloid peptides deposited in human brain.

We aimed to determine quantitatively the fine amino- and carboxyl-terminal structure of A beta peptides deposited in human brain using a set of 12 anti-A beta antibodies that distinguish between terminal modifications including isomerization, stereoisomerization, limited proteolysis, and cyclization. Immunochemical examination of cortical blocks from aged subjects distinguished by their total plaque load and from a young Down's syndrome patient identified the major invariantly deposited species as A beta x-42 (X = 1(D-aspartate) and 3(pyroglutamate) and/or 11(pyroglutamate)). These molecular forms, presumably representing by-products of metabolic intermediates toward degradation, are similar in being resistant to major aminopeptidases.

Spatial resolution of the primary beta-amyloidogenic process induced in postischemic hippocampus.

Proteolytic modifications of amyloid precursor protein (APP) play key roles in the development of Alzheimer's disease. However, each specific in vivo process has not yet been fully resolved in spatial terms because the orthodox approach employing electrophoretic analysis requires homogenization of samples and thus provides limited information on the localization of the process. To acquire such spatial information for the primary process involved in beta-amyloidogenesis, we have designed and developed a novel antibody exclusively specific to APP fragments possessing the exact amino terminus of the major beta-amyloid (A beta) peptide.

The toxic effect of Alzheimer amyloid protein precursor overexpressed in the neuroblastoma cell line NB-1 on neurite outgrowth.

The neuroblastoma cell line NB-1 is induced to start neurite outgrowth by dibutyryl cyclic AMP (Bt2cAMP). To study the function of Alzheimer amyloid protein precursor (APP), a stable cell line overexpressing APP was established by cDNA transfection. The APP cDNA was driven by the cytomegalovirus early gene promoter.

The triplet of lysine residues (Lys724-Lys725-Lys726) of Alzheimer's amyloid precursor protein plays an important role in membrane anchorage and processing.

One of the pathological changes of Alzheimer's disease is the deposit of beta/A4 protein, which is derived from Alzheimer amyloid precursor protein (APP). In the secretory pathway, APP is cleaved at an internal region of beta/A4 protein by a hypothetical enzyme "secretase." Our previous study showed that the site of cleavage of APP by secretase is determined by the length from the membrane-spanning region.