Concurrent cell type–specific isolation and profiling of mouse brains in inflammation and Alzheimer’s disease
Dan B. Swartzlander, … , Baiping Wang, Hui Zheng
Dan B. Swartzlander, … , Baiping Wang, Hui Zheng
Published July 12, 2018
Citation Information: JCI Insight. 2018;3(13):e121109. https://doi.org/10.1172/jci.insight.121109.
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Resource and Technical Advance Inflammation Neuroscience

Concurrent cell type–specific isolation and profiling of mouse brains in inflammation and Alzheimer’s disease

Abstract

Nonneuronal cell types in the CNS are increasingly implicated as critical players in brain health and disease. While gene expression profiling of bulk brain tissue is routinely used to examine alterations in the brain under various conditions, it does not capture changes that occur within single cell types or allow interrogation of crosstalk among cell types. To this end, we have developed a concurrent brain cell type acquisition (CoBrA) methodology, enabling the isolation and profiling of microglia, astrocytes, endothelia, and oligodendrocytes from a single adult mouse forebrain. By identifying and validating anti-ACSA-2 and anti-CD49a antibodies as cell surface markers for astrocytes and vascular endothelial cells, respectively, and using established antibodies to isolate microglia and oligodendrocytes, we document that these 4 major cell types are isolated with high purity and RNA quality. We validated our procedure by performing acute peripheral LPS challenge, while highlighting the underappreciated changes occurring in astrocytes and vascular endothelia in addition to microglia. Furthermore, we assessed cell type–specific gene expression changes in response to amyloid pathology in a mouse model of Alzheimer’s disease. Our CoBrA methodology can be readily implemented to interrogate multiple CNS cell types in any mouse model at any age.

Authors

Dan B. Swartzlander, Nicholas E. Propson, Ethan R. Roy, Takashi Saito, Takaomi Saido, Baiping Wang, Hui Zheng

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Figure 5

Cell type–specific response to amyloid pathology in APP NL-G-F knockin mice.

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Cell type–specific response to amyloid pathology in APP NL-G-F knockin m...
(A–D) Heatmap of qRT-PCR data from concurrent brain cell type acquisition–isolated (CoBrA-isolated) microglia, astrocytes, and vascular endothelia, with comparison to that of bulk brain. (A) Gene expression profiles of microglia, astrocytes, vascular endothelia, and bulk brain against selected genes involved in inflammation, complement, chemokine, MHC, interferon pathways, and ApoE. (B–D) Comparison of genes specific to microglia (B), astrocyte (C), and vascular endothelia (D) between CoBrA-isolated cell types and bulk brain. Sig., P < 0.05 (red); Not Sig., P ≥ 0.05 (gray), t test. The red-and-blue scale bar represents the Z-score, the deviation from the mean by standard deviation units. (E) Representative confocal microscopy images of brain tissue from APP NL-G-F knockin (APP KI) mice and wild-type littermates at 9 months. Green, GFAP; red, Iba1; and blue, 6E10. Scale bar: 50 microns. (F) Quantitation of GFAP+ signal. n = 6/group. (G) Quantitation of Iba1 + signal. n = 6/group. (H) Mean cell number isolated per mouse forebrain by FACS from wild-type and APP KI mice. n = 6/group. Micro, microglia; Astro, astrocytes; Endo, vascular endothelia. ***P < 0.001, t test.