Angiotensin-converting enzyme overexpression in myelomonocytes prevents Alzheimer’s-like cognitive decline
Kenneth E. Bernstein, … , Sebastien Fuchs, Maya Koronyo-Hamaoui
Kenneth E. Bernstein, … , Sebastien Fuchs, Maya Koronyo-Hamaoui
Published February 3, 2014
Citation Information: J Clin Invest. 2014;124(3):1000-1012. https://doi.org/10.1172/JCI66541.
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Research Article Neuroscience

Angiotensin-converting enzyme overexpression in myelomonocytes prevents Alzheimer’s-like cognitive decline

Abstract

Cognitive decline in patients with Alzheimer’s disease (AD) is associated with elevated brain levels of amyloid β protein (Aβ), particularly neurotoxic Aβ1–42. Angiotensin-converting enzyme (ACE) can degrade Aβ1–42, and ACE overexpression in myelomonocytic cells enhances their immune function. To examine the effect of targeted ACE overexpression on AD, we crossed ACE10/10 mice, which overexpress ACE in myelomonocytes using the c-fms promoter, with the transgenic APPSWE/PS1ΔE9 mouse model of AD (AD+). Evaluation of brain tissue from these AD+ACE10/10 mice at 7 and 13 months revealed that levels of both soluble and insoluble brain Aβ1–42 were reduced compared with those in AD+ mice. Furthermore, both plaque burden and astrogliosis were drastically reduced. Administration of the ACE inhibitor ramipril increased Aβ levels in AD+ACE10/10 mice compared with the levels induced by the ACE-independent vasodilator hydralazine. Overall, AD+ACE10/10 mice had less brain-infiltrating cells, consistent with reduced AD-associated pathology, though ACE-overexpressing macrophages were abundant around and engulfing Aβ plaques. At 11 and 12 months of age, the AD+ACE10/WT and AD+ACE10/10 mice were virtually equivalent to non-AD mice in cognitive ability, as assessed by maze-based behavioral tests. Our data demonstrate that an enhanced immune response, coupled with increased myelomonocytic expression of catalytically active ACE, prevents cognitive decline in a murine model of AD.

Authors

Kenneth E. Bernstein, Yosef Koronyo, Brenda C. Salumbides, Julia Sheyn, Lindsey Pelissier, Dahabada H.J. Lopes, Kandarp H. Shah, Ellen A. Bernstein, Dieu-Trang Fuchs, Jeff J.-Y. Yu, Michael Pham, Keith L. Black, Xiao Z. Shen, Sebastien Fuchs, Maya Koronyo-Hamaoui

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Figure 5

Effects of ACE inhibition on brain Aβ levels in AD+ACE10/10 mice.

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Effects of ACE inhibition on brain Aβ levels in AD+ACE10/10 mice. (A) ...
(A) Representative hippocampal micrographs from 13-month-old AD+ACEWT/WT and AD+ACE10/10 mice as well as from AD+ACE10/10 mice treated for 60 days with either ramipril or hydralazine (Hyd). Sections were stained with anti-human Aβ antibody 6E10 (green), anti-GFAP (red), and DAPI (blue). Lower panels show the 6E10 channel in gray scale. Scale bars: 50 μm. (B) Quantitative analysis of 6E10-positive immunoreactive plaque area from cortical and hippocampal regions. Data for individual mice, group means, and SEM are shown. ACE inhibition with ramipril significantly increased the plaque area as compared with that observed in AD+ACE10/10 mice or AD+ACE10/10 mice treated with hydralazine. (C and D) Thirteen-month-old AD+ACE10/10 mice were treated for 28 days (black triangles) or 60 days (black diamonds) with ramipril or hydralazine. Measurement of insoluble human Aβ1–42 by ELISA (C) showed no difference at 28 days between the mice receiving ramipril and those receiving hydralazine. However, after 60 days, the mice treated with ramipril had significantly higher insoluble Aβ1–42 levels as compared with those in the hydralazine-treated group. Analysis of soluble Aβ1–42 levels by ELISA (D) showed significantly higher brain levels at both 28 and 60 days in the AD+ACE10/10 mice treated with ramipril as compared with Aβ1–42 levels in the equivalently aged mice treated with hydralazine. The mice treated with ramipril or hydralazine for 60 days in C and D were those studied in A and B. *P < 0.05; **P < 0.001.