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- Title
Spatially resolved transcriptomics reveals genes associated with the vulnerability of middle temporal gyrus in Alzheimer's disease.
- Authors
Chen, Shuo; Chang, Yuzhou; Li, Liangping; Acosta, Diana; Li, Yang; Guo, Qi; Wang, Cankun; Turkes, Emir; Morrison, Cody; Julian, Dominic; Hester, Mark E.; Scharre, Douglas W.; Santiskulvong, Chintda; Song, Sarah XueYing; Plummer, Jasmine T.; Serrano, Geidy E.; Beach, Thomas G.; Duff, Karen E.; Ma, Qin; Fu, Hongjun
- Abstract
Human middle temporal gyrus (MTG) is a vulnerable brain region in early Alzheimer's disease (AD), but little is known about the molecular mechanisms underlying this regional vulnerability. Here we utilize the 10 × Visium platform to define the spatial transcriptomic profile in both AD and control (CT) MTG. We identify unique marker genes for cortical layers and the white matter, and layer-specific differentially expressed genes (DEGs) in human AD compared to CT. Deconvolution of the Visium spots showcases the significant difference in particular cell types among cortical layers and the white matter. Gene co-expression analyses reveal eight gene modules, four of which have significantly altered co-expression patterns in the presence of AD pathology. The co-expression patterns of hub genes and enriched pathways in the presence of AD pathology indicate an important role of cell–cell-communications among microglia, oligodendrocytes, astrocytes, and neurons, which may contribute to the cellular and regional vulnerability in early AD. Using single-molecule fluorescent in situ hybridization, we validated the cell-type-specific expression of three novel DEGs (e.g., KIF5A, PAQR6, and SLC1A3) and eleven previously reported DEGs associated with AD pathology (i.e., amyloid beta plaques and intraneuronal neurofibrillary tangles or neuropil threads) at the single cell level. Our results may contribute to the understanding of the complex architecture and neuronal and glial response to AD pathology of this vulnerable brain region.
- Subjects
ALZHEIMER'S disease; TEMPORAL lobe; MICROGLIA; FLUORESCENCE in situ hybridization; GENE regulatory networks; WHITE matter (Nerve tissue)
- Publication
Acta Neuropathologica Communications, 2022, Vol 10, Issue 1, p1
- ISSN
2051-5960
- Publication type
Article
- DOI
10.1186/s40478-022-01494-6