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SRX17356410: GSM6528221: Bulk RNA-seq E4_Mid_Bulk RNA-seq rep3; Mus musculus; RNA-Seq
1 ILLUMINA (Illumina NovaSeq 6000) run: 31.4M spots, 9.4G bases, 2.9Gb downloads

External Id: GSM6528221_r1
Submitted by: Physiology/Sanders-Brown Center on Aging, University of Kentucky
Study: APOE modulates microglial immunometabolism in response to age, amyloid pathology, and inflammatory challenge [Bulk RNA-seq]
show Abstracthide Abstract
The E4 allele of Apolipoprotein E (APOE) is associated with both metabolic dysfunction and a heightened pro-inflammatory response – two findings that may be intrinsically linked through the concept of immunometabolism. Here, we combined bulk, single-cell, and spatial transcriptomics with cell-specific and spatially resolved metabolic analyses to systematically address the role of APOE across age, neuroinflammation, and AD pathology. RNAseq highlighted immunometabolic changes across the APOE4 glial transcriptome, specifically in subsets of metabolically distinct microglia enriched in the E4 brain during aging or following an inflammatory challenge. E4 microglia display increased Hif1a expression, a disrupted TCA cycle, and are inherently pro-glycolytic, while spatial transcriptomics and MALDI mass spectrometry imaging highlight an E4-specific response to amyloid that is characterized by widespread alterations in lipid metabolism. Taken together, our findings emphasize a central role for APOE in regulating microglial immunometabolism. Overall design: Mice were female mice aged 3 or 24 months of age, or female E3_5xFAD or E4_5xFAD mice (homozygous APOE transgenic mice crossed to the 5XFAD strain) 12 months of age
Sample: Bulk RNA-seq E4_Mid_Bulk RNA-seq rep3
SAMN30597690 • SRS14916617 • All experiments • All runs
Organism: Mus musculus
Library:
Name: GSM6528221
Instrument: Illumina NovaSeq 6000
Strategy: RNA-Seq
Source: TRANSCRIPTOMIC
Selection: cDNA
Layout: PAIRED
Construction protocol: The mirroring hemisphere (right) from brains processed for scRNAseq were immediately placed in OCT compound (Fisher HealthCare Tissue Plus O.C.T. Compound Clear 4585) and gently lowered into isopentane (Sigma Aldrich 2-Methylbutane M32631) in a beaker surrounded by dry ice (isopentane chilled to approximately -70°C). Brains were submerged for 60 seconds, placed on dry ice, wrapped in aluminum foil, and stored at -80°C until sectioning. Prepared brain hemispheres were cryosectioned to 10 μm thick coronal sections at approximately Bregma -2.00 mm. Serial 10 μm sections immediately rostral and caudal to the section mounted on the Visium Spatial Gene Expression slide (10X Genomics) were collected for immunohistochemistry. Optimal tissue permeabilization time was determined using the manufacturer's optimization protocols (10X Genomics, Visium Spatial Tissue Optimization), and accordingly, experimental tissues were permeabilized for 18 min for Visium Spatial Gene Expression analysis. Prior to library preparation, tissue sections were methanol-fixed, stained with hematoxylin and eosin (H&E), and imaged on a Nikon NiU microscope with Fi3 color camera. Sections were then permeabilized and processed to obtain cDNA libraries, which were subsequently prepared according to the manufacturer's protocol (https://support.10xgenomics.com/spatial-gene-expression/libraryprep). Sample libraries were constructed using Next GEM automated 3' reagents (10X Genomics, v3.1) following manufacturer's suggested protocol (#CG000286 Rev B). Final library quantification and quality check was performed using BioAnalyzer (Agilent), and sequencing performed on a NovaSeq 6000 S4 flow cell, 150 bp Paired-End sequencing (Novogene).
Runs: 1 run, 31.4M spots, 9.4G bases, 2.9Gb
Run# of Spots# of BasesSizePublished
SRR2135058731,437,1729.4G2.9Gb2022-09-04

ID:
24177533

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