Cerebrovascular amyloidosis (CA) may result in intraparenchymal bleeding and cognitive impairment. It was previously shown that transforming growth factor-beta1 (TGF-beta1) expression under an astrocyte promoter resulted in congophilic vascular deposits and vascular pathology. A reduction in insulin-degrading enzyme (IDE) activity was previously suggested to play a role in the accumulation of congophilic vascular deposits in the microvasculature of Alzheimer's disease (AD) cases. Here, we aim to investigate the link between TGF-beta1 and IDE activity in the development of CA. We found that TGF-beta1 can reduce IDE expression in a mouse brain endothelial cell line (ECs). Furthermore, we discovered that IDE activity in the brains of TGF-beta1 transgenic (Tg) mice was significantly reduced compared with that of the control mice in an age-dependent manner. In addition, TGF-beta1/IDE(-/-) mice showed significantly greater levels of cerebrovascular pathology compared with TGF-beta1 mice. We have previously shown that 16-month-old TGF-beta1 mice have a significant reduction in synaptophysin protein levels, which may lead to cognitive impairment. Here we discovered a significant reduction in synaptophysin protein already at the age of seven in the hippocampus of TGF-beta1/IDE(-/-) mice compared with TGF-beta1 mice. Further investigation of TGF-beta1-mediated IDE activity in ECs may provide useful therapeutic intervention targets for cerebrovascular diseases such as CA.
        
Related information
Citations formats
Lifshitz V, Benromano T, Weiss R, Blanga-Kanfi S, Frenkel D (2013) Insulin-degrading enzyme deficiency accelerates cerebrovascular amyloidosis in an animal model Brain Behavior & Immunity30: 143-9