[HTML][HTML] High-content analysis of neuronal morphology in human iPSC-derived neurons
STAR protocols, 2022•Elsevier
We present a high-content analysis (HCA) protocol for monitoring the outgrowth capacity of
human neurons derived from induced pluripotent stem cells (iPSCs). We describe steps to
perform HCA imaging, followed by quantifying the morphology of dendrites and axons within
a high-throughput system to evaluate neurons obtained through various differentiation
approaches. This protocol can be used to screen for modulators of neuronal morphogenesis
or neurotoxicity. The approach can be applied to patient-derived iPSCs to identify patient …
human neurons derived from induced pluripotent stem cells (iPSCs). We describe steps to
perform HCA imaging, followed by quantifying the morphology of dendrites and axons within
a high-throughput system to evaluate neurons obtained through various differentiation
approaches. This protocol can be used to screen for modulators of neuronal morphogenesis
or neurotoxicity. The approach can be applied to patient-derived iPSCs to identify patient …
Summary
We present a high-content analysis (HCA) protocol for monitoring the outgrowth capacity of human neurons derived from induced pluripotent stem cells (iPSCs). We describe steps to perform HCA imaging, followed by quantifying the morphology of dendrites and axons within a high-throughput system to evaluate neurons obtained through various differentiation approaches. This protocol can be used to screen for modulators of neuronal morphogenesis or neurotoxicity. The approach can be applied to patient-derived iPSCs to identify patient-specific defects and possible therapeutic strategies.
For complete details on the use and execution of this protocol, please refer to Zink et al. (2020) and Inak et al. (2021). The protocol can be used in combination with Zink et al. (2022).
Elsevier