Add to ORKGHuman stem cell-derived neurons are increasingly considered powerful models in drug discovery and disease modeling, despite limited characterization of their molecular properties. Here, we have conducted a detailed study of the properties of a commercial human induced Pluripotent Stem Cell (iPSC)-derived neuron line, iCell [GABA] neurons, maintained for up to 3 months in vitro. We confirmed that iCell neurons display neurite outgrowth within 24 h of plating and label for the pan-neuronal marker, βIII tubulin within the first week. Our multi-electrode array (MEA) recordings clearly showed neurons generated spontaneous, spike-like activity within 2 days of plating, which peaked at one week, and rapidly decreased over the second week to remain...
Gamma-aminobutyric acid (GABA)-releasing interneurons modulate neuronal network activity in the brai...
Summary: iPSC-derived human neurons are expected to revolutionize studies on brain diseases, but the...
Differentiated neurons can be rapidly acquired, within days, by inducing stem cells to express neuro...
Human stem cell-derived neurons are increasingly considered powerful models in drug discovery and di...
Human pluripotent stem cells have enormous potential value in neuropharmacology and drug discovery y...
Current neurotoxicity testing heavily relies on expensive, time consuming and ethically debated in v...
Pre-clinical testing of drug candidates in animal models is expensive, time-consuming, and often fai...
Human stem cells have revolutionized the study of early neural development, offering a powerful tool...
Functional studies of neurons have traditionally used nervous system tissues from a variety of non-h...
Summary: Synaptic dysfunction is associated with many brain disorders, but robust human cell models ...
The risks of damage to the developing nervous system of many chemicals are not known because these s...
Since the isolation and culture in vitro of human pluripotent embryonic stem cells in 1998, a number...
Many protocols have been designed to differentiate human embryonic stem cells (ESCs) and human induc...
SummaryGamma-aminobutyric acid (GABA)-releasing interneurons play an important modulatory role in th...
Gamma-aminobutyric acid (GABA)-releasing interneurons modulate neuronal network activity in the brai...
Summary: iPSC-derived human neurons are expected to revolutionize studies on brain diseases, but the...
Differentiated neurons can be rapidly acquired, within days, by inducing stem cells to express neuro...
Human stem cell-derived neurons are increasingly considered powerful models in drug discovery and di...
Human pluripotent stem cells have enormous potential value in neuropharmacology and drug discovery y...
Current neurotoxicity testing heavily relies on expensive, time consuming and ethically debated in v...
Pre-clinical testing of drug candidates in animal models is expensive, time-consuming, and often fai...
Human stem cells have revolutionized the study of early neural development, offering a powerful tool...
Functional studies of neurons have traditionally used nervous system tissues from a variety of non-h...
Summary: Synaptic dysfunction is associated with many brain disorders, but robust human cell models ...
The risks of damage to the developing nervous system of many chemicals are not known because these s...
Since the isolation and culture in vitro of human pluripotent embryonic stem cells in 1998, a number...
Many protocols have been designed to differentiate human embryonic stem cells (ESCs) and human induc...
SummaryGamma-aminobutyric acid (GABA)-releasing interneurons play an important modulatory role in th...
Gamma-aminobutyric acid (GABA)-releasing interneurons modulate neuronal network activity in the brai...
Summary: iPSC-derived human neurons are expected to revolutionize studies on brain diseases, but the...
Differentiated neurons can be rapidly acquired, within days, by inducing stem cells to express neuro...