Abstract
A disturbance of calcium homeostasis is believed to play an important role in the neurodegeneration of the brains of Alzheimer disease (AD) patients, but the molecular pathways by which it contributes to the disease are not well understood. Here we studied the activation of two major Ca(2+)-regulated brain proteins, calpain and calcineurin, in AD brain. We found that calpain I is activated, which in turn cleaves and activates calcineurin in AD brain. Mass spectrometric analysis indicated that the cleavage of calcineurin by calpain I is at lysine 501, a position C-terminal to the autoinhibitory domain, which produces a 57-kDa truncated form. The 57-kDa calcineurin maintains its Ca(2+)/calmodulin dependence of the phosphatase activity, but the phosphatase activity is remarkably activated upon truncation. The cleavage and activation of calcineurin correlate to the number of neurofibrillary tangles in human brains. These findings suggest that the overactivation of calpain I and calcineurin may mediate the role of calcium homeostatic disturbance in the neurodegeneration of AD.
Highlights
Calcium signaling is mediated through an array of calcium-dependent enzymes
Terminated, and the released 32Pi was determined by Cerenkov counting after separation from 32P-tau by ascending paper chromatography, as described previously [31]. Both Calpain I and CaN A Are Truncated in Alzheimer disease (AD) Brain—To investigate the proteolytic cleavages of calpain I and CaN A in AD brain, we employed Western blots to analyze the homogenates of temporal cortices from 6 AD and 7 age- and postmortem interval-matched control brains (TABLE ONE)
We found for the first time that CaN A is proteolyzed at lysine 501 into a 57-kDa truncated form by activated calpain I in AD brain, and this cleavage markedly activates the Ca2ϩ/calmodulin-dependent phosphatase activity of CaN
Summary
Materials—The longest isoform of human tau (tau441) and cyclin-dependent kinase 5 (cdk5) and its activator p25 were cloned, expressed, and purified as described previously [22, 23]. The catalytic subunit of NOVEMBER 11, 2005 VOLUME 280 NUMBER 45
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