Olivier Poirot scite author profile

Analgesic therapies are still limited and sometimes poorly effective, therefore finding new targets for the development of innovative drugs is urgently needed. In order to validate the potential utility of blocking T-type calcium channels to reduce nociception, we explored the effects of intrathecally administered oligodeoxynucleotide antisenses, specific to the recently identified T-type calcium channel family (Ca V 3.1, Ca V 3.2, and Ca V 3.3), on reactions to noxious stimuli in healthy and mononeuropathic rats. Our results demonstrate that the antisense targeting Ca V 3.2 induced a knockdown of the Ca V 3.2 mRNA and protein expression as well as a large reduction of 'Ca V 3.2-like' T-type currents in nociceptive dorsal root ganglion neurons. Concomitantly, the antisense treatment resulted in major antinociceptive, anti-hyperalgesic, and anti-allodynic effects, suggesting that Ca V 3.2 plays a major pronociceptive role in acute and chronic pain states. Taken together, the results provide direct evidence linking Ca V 3.2 T-type channels to pain perception and suggest that Ca V 3.2 may offer a specific molecular target for the treatment of pain.

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Agonist-independent modulation of N-type calcium channels by ORL1 receptors

Beedle

et al. 2004

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We have investigated modulation of voltage-gated calcium channels by nociceptin (ORL1) receptors. In rat DRG neurons and in tsA-201 cells, nociceptin mediated a pronounced inhibition of N-type calcium channels, whereas other calcium channel subtypes were unaffected. In tsA-201 cells, expression of N-type channels with human ORL1 resulted in a voltage-dependent G-protein inhibition of the channel that occurred in the absence of nociceptin, the ORL1 receptor agonist. Consistent with this observation, native N-type channels of small nociceptive dorsal root ganglion (DRG) neurons also had tonic inhibition by G proteins. Biochemical characterization showed the existence of an N-type calcium channel-ORL1 receptor signaling complex, which efficiently exposes N-type channels to constitutive ORL1 receptor activity. Calcium channel activity is thus regulated by changes in ORL1 receptor expression, which provides a possible molecular mechanism for the development of tolerance to opioid receptor agonists.

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Distinct ASIC currents are expressed in rat putative nociceptors and are modulated by nerve injury

Poirot

Berta

Décosterd

et al. 2006

The Journal of Physiology

121

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The H(+)-gated acid-sensing ion channels (ASICs) are expressed in dorsal root ganglion (DRG) neurones. Studies with ASIC knockout mice indicated either a pro-nociceptive or a modulatory role of ASICs in pain sensation. We have investigated in freshly isolated rat DRG neurones whether neurones with different ASIC current properties exist, which may explain distinct cellular roles, and we have investigated ASIC regulation in an experimental model of neuropathic pain. Small-diameter DRG neurones expressed three different ASIC current types which were all preferentially expressed in putative nociceptors. Type 1 currents were mediated by ASIC1a homomultimers and characterized by steep pH dependence of current activation in the pH range 6.8-6.0. Type 3 currents were activated in a similar pH range as type 1, while type 2 currents were activated at pH < 6. When activated by acidification to pH 6.8 or 6.5, the probability of inducing action potentials correlated with the ASIC current density. Nerve injury induced differential regulation of ASIC subunit expression and selective changes in ASIC function in DRG neurones, suggesting a complex reorganization of ASICs during the development of neuropathic pain. In summary, we describe a basis for distinct cellular functions of different ASIC types in small-diameter DRG neurones.

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Olivier Poirot

Silencing of the Cav3.2 T-type calcium channel gene in sensory neurons demonstrates its major role in nociception

Agonist-independent modulation of N-type calcium channels by ORL1 receptors

Distinct ASIC currents are expressed in rat putative nociceptors and are modulated by nerve injury

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