Antigen-specific age-related memory CD8 T cells induce and track Alzheimer's-like neurodegeneration.
Akanksha PanwarAltan RentsendorjMichelle JhunRobert M CohenRyan CordnerNicole GullRobert N PechnickGretchen DuvallArmen MardirosDavid GolchianHannah SchubloomLee-Way JinDebby Van DamYannick VermeirenHans De ReuPeter Paul De DeynJevgenij A RaskatovKeith L BlackDwain K IrvinBrian A WilliamsChristopher J WheelerPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Cerebral (Aβ) plaque and (pTau) tangle deposition are hallmarks of Alzheimer's disease (AD), yet are insufficient to confer complete AD-like neurodegeneration experimentally. Factors acting upstream of Aβ/pTau in AD remain unknown, but their identification could enable earlier diagnosis and more effective treatments. T cell abnormalities are emerging AD hallmarks, and CD8 T cells were recently found to mediate neurodegeneration downstream of tangle deposition in hereditary neurodegeneration models. The precise impact of T cells downstream of Aβ/pTau, however, appears to vary depending on the animal model. Our prior work suggested that antigen-specific memory CD8 T (" hi T") cells act upstream of Aβ/pTau after brain injury. Here, we examine whether hi T cells influence sporadic AD-like pathophysiology upstream of Aβ/pTau. Examining neuropathology, gene expression, and behavior in our hi T mouse model we show that CD8 T cells induce plaque and tangle-like deposition, modulate AD-related genes, and ultimately result in progressive neurodegeneration with both gross and fine features of sporadic human AD. T cells required Perforin to initiate this pathophysiology, and IFNγ for most gene expression changes and progression to more widespread neurodegenerative disease. Analogous antigen-specific memory CD8 T cells were significantly elevated in the brains of human AD patients, and their loss from blood corresponded to sporadic AD and related cognitive decline better than plasma pTau-217, a promising AD biomarker candidate. We identify an age-related factor acting upstream of Aβ/pTau to initiate AD-like pathophysiology, the mechanisms promoting its pathogenicity, and its relevance to human sporadic AD.
Keyphrases
- cognitive decline
- gene expression
- brain injury
- endothelial cells
- mouse model
- late onset
- subarachnoid hemorrhage
- working memory
- dna methylation
- coronary artery disease
- mild cognitive impairment
- multiple sclerosis
- prognostic factors
- induced pluripotent stem cells
- dendritic cells
- patient reported outcomes
- cerebral ischemia