Functional coculture of sympathetic neurons and cardiomyocytes derived from human-induced pluripotent stem cells was written by Winbo, Annika;Ramanan, Suganeya;Eugster, Emily;Jovinge, Stefan;Skinner, Jonathan R.;Montgomery, Johanna M.. And the article was included in American Journal of Physiology in 2020.Recommanded Product: 1062368-24-4 This article mentions the following:
Sympathetic neurons (SNs) capable of modulating the heart rate of murine cardiomyocytes (CMs) can be differentiated from human stem cells. The electrophysiol. properties of human stem cell-derived SNs remain largely uncharacterized, and human neurocardiac cocultures remain to be established. Here, we have adapted previously published differentiation and coculture protocols to develop feeder-free SNs using human-induced pluripotent stem cells (hiPSCs). HiPSC-SNs were characterized in monoculture and coculture with hiPSC-CMs, using antibody labeling, ELISA, and whole cell patch-clamp electrophysiol. techniques. HiPSC-SNs stained pos. for peripherin, tyrosine hydroxylase, and nicotinic acetylcholine receptors, the latter two colocalizing in somas and synaptic varicosities. hiPSC-SNs functionally matured in vitro and exhibited healthy resting membrane potentials (average-61 ± 0.7 mV), secreted norepinephrine upon activation, and generated synaptic and action currents and inward and outward voltage-dependent currents. All hiPSC-SNs fired action potentials in response to current injection, local application of potassium, or spontaneously, followed by short-medium afterhyperpolarizations. A HiPSC-SNs could successfully be maintained in coculture with hiPSC-CMs, and this induced further development of hiPSC-SN action potential kinetics. To test functional coupling between the neurons and cardiomyocytes, the hiPSC-CM beating response to nicotine-induced norepinephrine release was assessed. In neurocardiac cocultures, nicotine exposure significantly increased the hiPSC-CM spontaneous beating rate, but not in hiPSC-CM monocultures, supporting nicotinic neuronal hiPSC-SN stimulation directly influencing hiPSC-CM function. Our data show the development and characterization of electrophysiol. functional hiPSC-SNs capable of modulating the beating rate of hiPSC-CMs in vitro. These human cocultures provide a novel multicellular model to study neurocardiac modulation under physiol. and pathol. conditions. NEW ± NOTEWORTHY We present data on a functional coculture between human-induced pluripotent stem cell-derived sympathetic neurons and cardiomyocytes. Moreover, this study adds significantly to the available data on the electrophysiol. function of humaninduced pluripotent stem cell-derived sympathetic neurons. human-induced pluripotent stem cells; neurocardiac coculture; sympathetic modulation of heart rate; sympathetic neurons. In the experiment, the researchers used many compounds, for example, 4-(6-(4-(Piperazin-1-yl)phenyl)pyrazolo[1,5-a]pyrimidin-3-yl)quinoline (cas: 1062368-24-4Recommanded Product: 1062368-24-4).
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