Sutirtha Ray scite author profile

The prime task of nociceptors is the transformation of noxious stimuli into action potentials that are propagated along the neurites of nociceptive neurons from the periphery to the spinal cord. This function of nociceptors relies on the coordinated operation of a variety of ion channels. In this review, we summarize how members of nine different families of ion channels expressed in sensory neurons contribute to nociception. Furthermore, data on 35 different types of G protein coupled receptors are presented, activation of which controls the gating of the aforementioned ion channels. These receptors are not only targeted by more than 20 separate endogenous modulators, but can also be affected by pharmacotherapeutic agents. Thereby, this review provides information on how ion channel modulation via G protein coupled receptors in nociceptors can be exploited to provide improved analgesic therapy.

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The paracetamol metabolite N-acetylp-benzoquinone imine reduces excitability in first- and second-order neurons of the pain pathway through actions on KV7 channels

Ray

Salzer

Kronschläger

et al. 2018

PAIN

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Cysteine-modification of Kv7 Channels as Analgesic Mechanism of Action of Acetaminophen

Salzer¹,

Ray

Boehm

2020

Biophysical Journal

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KV7 channels: potential targets for antinociceptive action of paracetamol

Ray¹

2015

Intrinsic Act

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KV7 and TRPV1 channels: neuronal targets for the analgesic action of paracetamol

Ray¹

2017

Intrinsic Act

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K(V)7 channels: potential targets for the antinociceptive action of paracetamol

Ray¹

2016

Intrinsic Act

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Sutirtha Ray

Nociceptor Signalling through ion Channel Regulation via GPCRs

The paracetamol metabolite N-acetylp-benzoquinone imine reduces excitability in first- and second-order neurons of the pain pathway through actions on KV7 channels

Cysteine-modification of Kv7 Channels as Analgesic Mechanism of Action of Acetaminophen

KV7 channels: potential targets for antinociceptive action of paracetamol

KV7 and TRPV1 channels: neuronal targets for the analgesic action of paracetamol

K(V)7 channels: potential targets for the antinociceptive action of paracetamol

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