Megan O. Nuwer scite author profile

Megan O. Nuwer

2Publications

95Citation Statements Received

89Citation Statements Given

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State University of New York

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PKA-Induced Internalization of Slack K_NaChannels Produces Dorsal Root Ganglion Neuron Hyperexcitability

Nuwer¹,

Picchione²,

Bhattacharjee³

2010

J. Neurosci.

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Inflammatory mediators through the activation of the protein kinase A (PKA) pathway sensitize primary afferent nociceptors to mechanical, thermal, and osmotic stimuli. However, it is unclear which ion conductances are responsible for PKA-induced nociceptor hyperexcitability. We have previously shown the abundant expression of Slack sodium-activated potassium (K Na ) channels in nociceptive dorsal root ganglion (DRG) neurons. Here we show using cultured DRG neurons, that of the total potassium current, I K , the K Na current is predominantly inhibited by PKA. We demonstrate that PKA modulation of K Na channels does not happen at the level of channel gating but arises from the internal trafficking of Slack channels from DRG membranes. Furthermore, we found that knocking down the Slack subunit by RNA interference causes a loss of firing accommodation analogous to that observed during PKA activation. Our data suggest that the change in nociceptive firing occurring during inflammation is the result of PKA-induced Slack channel trafficking.

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cAMP-dependent kinase does not modulate the Slack sodium-activated potassium channel

2009

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Megan O. Nuwer

PKA-Induced Internalization of Slack K_NaChannels Produces Dorsal Root Ganglion Neuron Hyperexcitability

cAMP-dependent kinase does not modulate the Slack sodium-activated potassium channel

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Megan O. Nuwer

PKA-Induced Internalization of Slack KNaChannels Produces Dorsal Root Ganglion Neuron Hyperexcitability

cAMP-dependent kinase does not modulate the Slack sodium-activated potassium channel

Contact Info

Product

Resources

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PKA-Induced Internalization of Slack K_NaChannels Produces Dorsal Root Ganglion Neuron Hyperexcitability