Preexisting Genetic Background Primes the Responses of Human Neurons to Amyloid β
Adedamola Saidi Soladogun, Li Zhang

TL;DR
This study shows that amyloid beta's effects on human neurons depend on their genetic background, triggering inflammation and cell movement in some neurons.
Contribution
The study reveals that Aβ-induced responses in human neurons are genetically modulated, with distinct pathway activation in E2/E2 neurons.
Findings
Aβ induces 64 genes in M E2/E2 neurons and 44 genes in F E3/E3 neurons.
Aβ-induced genes in M E2/E2 neurons activate inflammatory and cell migration pathways.
Aβ-induced genes in F E3/E3 neurons do not form significant pathways.
Abstract
The deposition of amyloid beta (Aβ) in the human brain is a hallmark of Alzheimer’s disease (AD). Aβ has been shown to exert a wide range of effects on neurons in cell and animal models. Here, we take advantage of differentiated neurons from iPSC-derived neural stem cells of human donors to examine its effects on human neurons. Specifically, we employed two types of neurons from genetically distinct donors: one male carrying APO E2/E2 (M E2/E2) and one female carrying APO E3/E3 (F E3/E3). Genome-wide RNA-sequencing analysis identified 64 and 44 genes that were induced by Aβ in M E2/E2 and F E3/E3 neurons, respectively. GO and pathway analyses showed that Aβ-induced genes in F E3/E3 neurons do not constitute any statistically significant pathways whereas Aβ-induced genes in M E2/E2 neurons constitute a complex network of activated pathways. These pathways include those promoting…
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Taxonomy
TopicsAlzheimer's disease research and treatments · Neuroinflammation and Neurodegeneration Mechanisms · Dementia and Cognitive Impairment Research
