摘要：

Background Coding variants in the microglial TREM2 ectodomain differentially (R47H> R62H) increase the risk of Alzheimer's disease (AD). To define mechanisms responsible in glia and neurons, we aimed to characterise neuropathology and transcriptomic responses in heterozygotes for these TREM2 variant alleles and for common allele homozygotes (CV) in non-diseased (n = 16) and AD (n = 42) brain cortical tissue from 58 donors. Method Using immunohistochemistry (IHC) and imaging mass cytometry (IMC), we characterised neocortical b-amyloid and AT8/PHF1 pTau pathology with CV (n = 30) and the R47H (n = 11) or R62H (n = 17) TREM2 carriers. We performed single nuclear RNA sequencing to test for the differential gene expression (DGE) in TREM2 and CV cortical tissues with greater 4G8+ b-amyloid- or PHF1+ pTau-immunostaining. Result There was a two-fold increase in 4G8+, a three-fold reduction in AT8+ but no change in PHF1+ immunostaining with AD in both variants versus CV. We found a reduced expression of genes associated with TREM2 function in R47H carriers relative to CV however enhanced microglial activation in R62H carriers. This was associated with an up-regulation of pathways such as 'neuroinflammation signalling pathway' in R62H not seen in R47H. CV astrocytes had little DGE with increasing pathology however both variants (R47H>R62H) had an increased proportion of differentially expressed genes suggestive of a heightened activation state. R47H and R62H astrocytes impacted pathways had opposing actions such as 'synaptogenesis signalling pathway' and 'PDGF signalling' pathways downregulated in R47H but upregulated in R62H. Neuronal gene expression changes were evident in all variants, however greatly enhanced in R47H in response to 4G8+ b-amyloid. With increasing PHF1+ pTau gene expression changes were mainly seen in R47H. Excitatory and inhibitory neurons both exhibited DGE in R47H carriers and impacted pathways centred around those involved in 'synaptogenesis signalling pathway', 'SNARE signalling pathway' and 'synaptic long term depression'. Conclusion This analysis identified novel disease-associated transcriptomic differences in the glial response to TREM2 and the secondary neuronal responses that can explain differences in the genetic AD risk conferred by these two TREM2 risk variants.

展开