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July 21, 2005
Amyloid-beta in Cerebral Blood Vessels Causes Vascular Damage in Alzheimer's Disease
Alzheimer's disease, the most common form of progressive dementia, affects an estimated 4.5 million Americans according to the Alzheimer's Association. Amyloid-beta deposition is a hallmark of Alzheimer's disease and other cerebral amyloid angiopathies. However, exactly how A?ccumulates and causes damage is not fully understood.
In the first article, "Cerebral microvascular Ab deposition induces vascular degeneration and neuroinflammation in transgenic mice expressing human vasculotropic mutant Ab," Miao et al. describe early-onset Ab deposition in Tg-SwDI mice. These mice express Ab protein with mutations that are found in human early-onset cerebral amyloid angiopathy, causing specific accumulation of Ab in cerebral blood vessels.
The Ab peptides accumulated because they could not adequately cross the blood-brain barrier to be cleared from the brain. Over time, Ab accumulation increased in the cerebral microvessels of the thalamus and subiculum of the brain. This resulted in degeneration of blood vessels as evidenced by reduced vessel density and increased apoptosis. Neuroinflammation also occurred as large numbers of microglia, along with inflammatory cytokines, were found at sites of Ab accumulation.
The authors conclude that early-onset Ab accumulation occurs predominantly in the cerebral microvasculature and appears largely responsible for the neuroinflammation in these mice. They also demonstrate the utility of Tg-SwDI mice in studying cerebral amyloid angiopathies, such as Alzheimer's disease.
The second article, by Kumar-Singh et al., "Dense-core plaques in Tg2576 and PSAPP mouse models of Alzheimer's disease are centered on vessel walls," utilizes two different transgenic mice: Tg2576 and PSAPP. Both models produce dense-core plaques, highly concentrated deposits of Ab and were used to investigate the possible association of blood vessels with A?eposits.
In these mice, dense-core plaques associated with cerebral vessels with high specificity. There was also evidence of vessel damage and blood-brain barrier damage, resulting in release of Ab through the vessel walls and accumulation of plaques next to the vessels. These data confirm previous observations in humans that senile plaques associate with blood vessels, especially in the vasculotropic Flemish type of Alzheimer's disease.
The authors propose a model of dense-core plaque formation that is dependent on cerebral vessels. As Ab is cleared from the brain, it exerts a cytotoxic effect on the endothelial cells of the vascular wall (a process that may be exacerbated if clearance is impaired). This leads to loss of vessel integrity and accumulation of Ab in the area surrounding the compromised vessel wall. Eventually, the damage is so great that the blood vessel deteriorates beyond functional use and new vessels form to pick up the slack. The result is a multicentric dense-core plaque that associates with multiple vessels.
These studies describe several animal models for further examining the pathogenesis and treatment of Alzheimer's disease and related cerebral amyloid angiopathies. And both studies confirm that Ab generated by neurons accumulates in blood vessels following attempted clearance of excess Ab peptides. Thus, study of novel therapies that reduce the blood vessel-associated deposition of A?ay prove beneficial to patients with Alzheimer's disease."
Source: New research suggests that accumulation of amyloid-beta peptides in cerebral blood vessels causes vascular damage in Alzheimer's disease. Medical Research News (21 July 2005) [FullText]
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