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TREM2 brain transcript-specific studies in AD and TREM2 mutation carriers
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TREM2 brain transcript-specific studies in AD and TREM2 mutation carriers
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Journal Article
TREM2 brain transcript-specific studies in AD and TREM2 mutation carriers
2019
Overview
Background
Low frequency coding variants in
TREM2
are associated with Alzheimer disease (AD) risk and cerebrospinal fluid (CSF) TREM2 protein levels are different between AD cases and controls. Similarly, TREM2 risk variant carriers also exhibit differential CSF TREM2 levels.
TREM2
has three different alternative transcripts, but most of the functional studies only model the longest transcript. No studies have analyzed
TREM2
expression levels or alternative splicing in brains from AD and cognitively normal individuals. We wanted to determine whether there was differential expression of
TREM2
in sporadic-AD cases versus AD-
TREM2
carriers vs sex- and aged-matched normal controls; and if this differential expression was due to a particular
TREM2
transcript.
Methods
We analyzed RNA-Seq data from parietal lobe brain tissue from AD cases with
TREM2
variants (
n
= 33), AD cases (
n
= 195) and healthy controls (
n
= 118), from three independent datasets using Kallisto and the R package tximport to determine the read count for each transcript and quantified transcript abundance as transcripts per million.
Results
The three
TREM2
transcripts were expressed in brain cortex in the three datasets. We demonstrate for the first time that the transcript that lacks the transmembrane domain and encodes a soluble form of TREM2 (sTREM2) has an expression level around 60% of the canonical transcript, suggesting that around 25% of the sTREM2 protein levels could be explained by this transcript. We did not observe a difference in the overall
TREM2
expression level between cases and controls. However, the isoform which lacks the 5′ exon, but includes the transmembrane domain, was significantly lower in
TREM2
- p.R62H carriers than in AD cases (
p
= 0.007).
Conclusion
Using bulk RNA-Seq data from three different cohorts, we were able to quantify the expression level of the three
TREM2
transcripts, demonstrating: (1) all three transcripts of them are highly expressed in the human cortex, (2) that up to 25% of the sTREM2 may be due to the expression of a specific isoform and not TREM2 cleavage; and (3) that
TREM2
risk variants do not affect expression levels, suggesting that the effect of the
TREM2
variants on CSF levels occurs at post-transcriptional level.
