Transcriptomics

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Longitudinal characterization of transcriptomic, functional, and morphological features in human iPSC-derived neurons and their application to investigate translational progranulin disease biology


ABSTRACT: The disease biology of frontotemporal lobe dementia (FTD) is complex and not fully understood, with limited translational value appreciated from animal models to date. Human cellular systems that can recapitulate phenotypic features of disease offer promise as translational tools to not only increase our understanding of disease processes but also increase the probability of success of translating novel treatment options to patients. However not all researchers may necessarily have access to well characterized induced pluripotent stem cell (iPSC)-derived human neurons. We therefore sought to comprehensively profile phenotypic features over time in one commercially-available IPSC-derived human neuron cell line. This included systems-level assessments of neurite outgrowth dynamics, neuronal network function and genome-wide gene expression. By investigating progranulin biology as an example we then demonstrated utility of these cells as a tool to investigate human disease biology. For example, by using siRNA-mediated knockdown of the progranulin (GRN) gene, we demonstrated establishment of an isogenic human cellular model to facilitate translational FTD research. We reproduced findings from rodent neurons by demonstrating that recombinant progranulin (rPGRN) mediated neuroprotection. Contrary to previous rodent data, in our human cellular models, growth factor treatment showed no consistent sensitivity to modulate neurite outgrowth dynamics. Our study further provides first evidence that rRPGRN modulated neuronal firing and synchrony in human neurons. Taken together, our datasets are a valuable systems-level resource demonstrating the utility of the tested commercially-available human iPSC neurons for investigating basic human neurobiology, translational neuroscience, and drug discovery applications in neurodegenerative and other CNS diseases.

ORGANISM(S): Homo sapiens

PROVIDER: GSE157573 | GEO | 2020/09/07

REPOSITORIES: GEO

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