Abstract
Hypertension is recognized as a risk factor for Alzheimer disease, but the causal link remains undetermined. Although astrocytes and microglia play an important role in maintaining the neurovascular unit, astrocytes and microglia have been understudied in comorbid models of hypertension and Alzheimer disease. In this study, male transgenic Fischer 344 rats (TgAPP21) overexpressing a pathogenic human amyloid precursor protein received 8 weeks of Angiotensin II infusion to increase blood pressure, and the rats were evaluated for astrocytosis, microgliosis, and cognitive function. A linear relationship between astrocytosis and blood pressure was observed in the corpus callosum and cingulum of wildtype rats, with hypertensive wildtype rats matching the elevated baseline astrocytosis seen in normotensive transgenic rats. In contrast, hypertensive transgenic rats did not demonstrate a further increase of astrocytosis, suggesting a deficient response. Angiotensin II infusion did not affect activation of microglia, which were elevated in the white matter and hippocampus of transgenic rats. Angiotensin II infusion did impair both wildtype and transgenic rats’ executive functions in the Morris Water Maze. These results present important implications for the interaction between hypertension and pathogenic human amyloid precursor protein expression, as Angiotensin II infusion produced cognitive impairments in both genotypes, but transgenic rats were additionally impaired in developing a normal astrocytic response to elevated blood pressure.
Highlights
Cerebral vascular pathology is commonly observed in autopsy-confirmed cases of Alzheimer’s disease (AD) at significantly greater rates than age-matched control cases (Toledo et al, 2013)
We investigated the impact of hypertension on the transgenic Fischer 344 rat (TgAPP21) which overexpresses a pathogenic variant of the human amyloid precursor protein (Agca et al, 2008), focusing on astrocytes, microglia, and executive function
Normotensive Tg rats had elevated baseline astrocyte reactivity in the corpus callosum and cingulum, while Tg-Angiotensin II (AngII) rats did not show a further increase of astrocytosis
Summary
Cerebral vascular pathology is commonly observed in autopsy-confirmed cases of Alzheimer’s disease (AD) at significantly greater rates than age-matched control cases (Toledo et al, 2013). Amyloid- and tau-mediated injury can disrupt neurovascular coupling Central to this bi-directional hypothesis is the neurovascular unit, maintained in part by astrocytes and microglia. Both of these glial cell types demonstrate important physiological responses to both hypertension and amyloid (Prokop et al, 2013; Dunn and Nelson, 2014; Shen et al, 2015; von Bernhardi et al, 2015; Frost and Li, 2017). The recent SPRINT-MIND trial demonstrated a reduced incidence of cognitive impairment in the intensive blood pressure control group when compared to standard treatment group (Williamson et al, 2019), further supporting a direct relationship between neurodegenerative disease and elevated blood pressure
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