Abstract
Background: Alzheimer’s disease is mainly characterized by remarkable neurodegeneration in brain areas related to memory formation. This progressive neurodegeneration causes cognitive impairment, changes in behavior, functional disability, and even death. Our group has demonstrated changes in the kallikrein–kinin system (KKS) in Alzheimer’s disease (AD) experimental models, but there is a lack of evidence about the role of the KKS in Alzheimer’s disease. Aim: In order to answer this question, we evaluated the potential of the kinin B2 receptors (BKB2R) to modify AD characteristics, particularly memory impairment, neurodegeneration, and Aβ peptide deposition. Methods: To assess the effects of B2, we used transgenic Alzheimer’s disease mice treated with B2 receptor (B2R) agonists and antagonists, and performed behavioral and biochemical tests. In addition, we performed organotypic hippocampal culture of wild-type (WT) and transgenic (TG) animals, where the density of cytokines, neurotrophin BDNF, activated astrocyte marker S100B, and cell death were analyzed after treatments. Results: Treatment with the B2R agonist preserved the spatial memory of transgenic mice and decreased amyloid plaque deposition. In organotypic hippocampal culture, treatment with B2R agonist decreased cell death, neuroinflammation, and S100B levels, and increased BDNF release. Conclusions: Our results indicate that the kallikrein–kinin system plays a beneficial role in Alzheimer’s disease through B2R activation. The use of B2R agonists could, therefore, be a possible therapeutic option for patients diagnosed with Alzheimer’s disease.
Highlights
Aging is a natural process that results in several biochemical, morphological, and physiological changes
Our results show that BK, via its BKB2R, has a neuroprotective role in transgenic Alzheimer’s disease animals
Control animals were treated with artificial cerebral spinal fluid (CSF), which was the Pharmaceuticals 2020, 13, x FOR PEER REVIEW
Summary
Aging is a natural process that results in several biochemical, morphological, and physiological changes. Previous reports from our group showed an increase in both kinin B1 and B2 receptor (BKB1R and BKB2R, respectively) densities after chronic infusion of Aβ peptide, followed by memory impairment in rats [6]. Memory impairment was absent in BKB1R knockout mice infused with Aβ peptide, with an increase in BKB2R density in memory processing-related areas, suggesting a neuroprotective role for BKB2R [3,4,5]. Alzheimer’s disease is mainly characterized by remarkable neurodegeneration in brain areas related to memory formation. This progressive neurodegeneration causes cognitive impairment, changes in behavior, functional disability, and even death. Aim: In order to answer this question, we evaluated the potential of the kinin B2 receptors (BKB2R) to modify AD characteristics, memory impairment, neurodegeneration, and Aβ peptide deposition
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