Nav1.3 sodium channels: Rapid repriming and slow closed-state inactivation display quantitative differences after expression in a mammalian cell line and in spinal sensory neurons

Theodore R. Cummins; Fabio Aglieco; Mathurkrisnan Renganathan; Raimund I. Herzog; Sulayman D. Dib-Hajj; Stephen G. Waxman

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Nav1.3 sodium channels: Rapid repriming and slow closed-state inactivation display quantitative differences after expression in a mammalian cell line and in spinal sensory neurons

Journal of Neuroscience (2001) 21(16) 5952-5961

DOI: 10.1523/jneurosci.21-16-05952.2001

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Abstract

Although rat brain Nav1.3 voltage-gated sodium channels have been expressed and studied in Xenopus oocytes, these channels have not been studied after their expression in mammalian cells. We characterized the properties of the rat brain Nav1.3 sodium channels expressed in human embryonic kidney (HEK) 293 cells. Nav1.3 channels generated fast-activating and fast-inactivating currents. Recovery from inactivation was relatively rapid at negative potentials (

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Cummins, T. R., Aglieco, F., Renganathan, M., Herzog, R. I., Dib-Hajj, S. D., & Waxman, S. G. (2001). Nav1.3 sodium channels: Rapid repriming and slow closed-state inactivation display quantitative differences after expression in a mammalian cell line and in spinal sensory neurons. Journal of Neuroscience, 21(16), 5952–5961. https://doi.org/10.1523/jneurosci.21-16-05952.2001

Nav1.3 sodium channels: Rapid repriming and slow closed-state inactivation display quantitative differences after expression in a mammalian cell line and in spinal sensory neurons

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