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  • Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors.

Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors.

Neuron (2021-09-03)
Valentina N Lagomarsino, Richard V Pearse, Lei Liu, Yi-Chen Hsieh, Marty A Fernandez, Elizabeth A Vinton, Daniel Paull, Daniel Felsky, Shinya Tasaki, Chris Gaiteri, Badri Vardarajan, Hyo Lee, Christina R Muratore, Courtney R Benoit, Vicky Chou, Seeley B Fancher, Amy He, Julie P Merchant, Duc M Duong, Hector Martinez, Monica Zhou, Fatmata Bah, Maria A Vicent, Jonathan M S Stricker, Jishu Xu, Eric B Dammer, Allan I Levey, Lori B Chibnik, Vilas Menon, Nicholas T Seyfried, Philip L De Jager, Scott Noggle, Dennis J Selkoe, David A Bennett, Tracy L Young-Pearse
ANOTACE

We have generated a controlled and manipulable resource that captures genetic risk for Alzheimer's disease: iPSC lines from 53 individuals coupled with RNA and proteomic profiling of both iPSC-derived neurons and brain tissue of the same individuals. Data collected for each person include genome sequencing, longitudinal cognitive scores, and quantitative neuropathology. The utility of this resource is exemplified here by analyses of neurons derived from these lines, revealing significant associations between specific Aβ and tau species and the levels of plaque and tangle deposition in the brain and, more importantly, with the trajectory of cognitive decline. Proteins and networks are identified that are associated with AD phenotypes in iPSC neurons, and relevant associations are validated in brain. The data presented establish this iPSC collection as a resource for investigating person-specific processes in the brain that can aid in identifying and validating molecular pathways underlying AD.

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Sigma-Aldrich
Anti-Synapsin I Rabbit pAb, lyophilized, Calbiochem®