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Chemically induced senescence in human stem cell‐derived neurons promotes phenotypic presentation of neurodegeneration

Ali Fathi, Sakthikumar Mathivanan, Linghai Kong, Andrew J. Petersen, Cole R. K. Harder, Jasper Block, Julia M. Miller, Anita Bhattacharyya, Daifeng Wang, Su‐Chun Zhang

2021Aging Cell28 citationsDOIOpen Access PDF

Abstract

Modeling age-related neurodegenerative disorders with human stem cells are difficult due to the embryonic nature of stem cell-derived neurons. We developed a chemical cocktail to induce senescence of iPSC-derived neurons to address this challenge. We first screened small molecules that induce embryonic fibroblasts to exhibit features characteristic of aged fibroblasts. We then optimized a cocktail of small molecules that induced senescence in fibroblasts and cortical neurons without causing DNA damage. The utility of the "senescence cocktail" was validated in motor neurons derived from ALS patient iPSCs which exhibited protein aggregation and axonal degeneration substantially earlier than those without cocktail treatment. Our "senescence cocktail" will likely enhance the manifestation of disease-related phenotypes in neurons derived from iPSCs, enabling the generation of reliable drug discovery platforms.

Topics & Concepts

NeurodegenerationSenescenceInduced pluripotent stem cellEmbryonic stem cellBiologyPhenotypeCell biologyStem cellDrug discoveryCellNeuroscienceDNA damageDiseaseGeneticsBioinformaticsGeneDNAPathologyMedicinePluripotent Stem Cells ResearchCRISPR and Genetic EngineeringNeurogenesis and neuroplasticity mechanisms