Intrathecal α-conotoxins Vc1.1, AuIB and MII acting on distinct nicotinic receptor subtypes reverse signs of neuropathic pain

Napier, Ian A.; Klimis, Harry; Rycroft, Beth K.; Jin, Aihua; Alewood, Paul F.; Motin, Leonid; Adams, David J.; Christie, MacDonald J.

doi:10.1016/j.neuropharm.2012.01.016

Cited by 52 publications

(53 citation statements)

References 36 publications

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“…These same α-conopeptides that minimally affected Ca V current strongly (>80%) inhibited α9α10 nAChRs expressed in Xenopus oocytes, which demonstrates the expected potency of these α9α10 nAChR antagonists. While our results fail to reproduce results reported in some previous publications (Callaghan et al, 2008; Callaghan and Adams, 2010), they do support other publications showing that RgIA and Vc1.1 do not activate GABA B receptors expressed in Xenopus oocytes (McIntosh et al, 2009) and showing that Vc1.1 does not affect excitatory neurotransmitter release from sensory nerve terminals that express GABA B receptors (Napier et al, 2012). …”

Section: Discussionsupporting

confidence: 51%

“…Two α-conopeptides, Vc1.1 and RgIA, have been shown to display antinociceptive effects in animal models; however, the mechanism responsible for analgesia remains debated (Vincler et al, 2006; McIntosh et al, 2009; Napier et al, 2012). Early studies found these α-conopeptides to be potent antagonists of heterologously expressed and native α9α10 nAChRs (Ellison et al, 2006; Vincler et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

“…Neither Vc1.1 or RgIA were able to prevent the binding of a specific competitive antagonist to the human GABA B receptor and both failed to activate GABA B receptors expressed in Xenopus laevis oocytes (McIntosh et al, 2009). In addition, Vc1.1 failed to affect excitatory postsynaptic currents (eEPSCs) in the dorsal horn of rat spinal cord, which were almost completely blocked by baclofen (Napier et al, 2012). These findings are inconsistent with GABA B receptor-induced inhibition of N-type Ca V channels as the mechanism for analgesia produced by Vc1.1 and RgIA.…”

Section: Introductionmentioning

confidence: 99%

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Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

Wright

Norimatsu

McIntosh

et al. 2015

eneuro

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Chronic pain is very difficult to treat. Thus, novel analgesics are a critical area of research. Strong pre-clinical evidence supports the analgesic effects of α-conopeptides, Vc1.1 and RgIA, which block α9α10 nicotinic acetylcholine receptors (nAChRs). However, the analgesic mechanism is controversial. Some evidence supports the block of α9α10 nAChRs as an analgesic mechanism, while other evidence supports the inhibition of N-type CaV (CaV2.2) current via activation of GABAB receptors. Here we reassess the effect of Vc1.1 and RgIA on CaV current in rat sensory neurons. Unlike the previous findings, we found highly variable effects among individual sensory neurons, but on average only minimal inhibition induced by Vc1.1, and no significant effect on the current by RgIA. We also investigated the potential involvement of GABAB receptors in the Vc1.1 induced inhibition, and found no correlation between the size of CaV current inhibition induced by baclofen (GABAB agonist) vs. that induced by Vc1.1. Thus, GABAB receptors are unlikely to mediate the Vc1.1 induced CaV current inhibition. Based on the present findings, CaV current inhibition in dorsal root ganglia is unlikely to be the predominant mechanism by which either Vc1.1 or RgIA induce analgesia. Significance Statement Better analgesic drugs are desperately needed to help physicians to treat pain. While many pre-clinical studies support the analgesic effects of α-conopeptides, Vc1.1 and RgIA, the mechanism is controversial. The development of improved α-conopeptide analgesics would be greatly facilitated by a complete understanding of the analgesic mechanism. However, we show that we cannot reproduce one of the proposed analgesic mechanisms, which is an irreversible inhibition of CaV current in a majority of sensory neurons.

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Section: Discussionsupporting

confidence: 51%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

Wright

Norimatsu

McIntosh

et al. 2015

eneuro

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“…Separately, recent evidence indicates that RgIA is able to inhibit high voltage-activated N-type calcium channel currents in rat DRG via activation of GABA B receptors [11], though this effect is not replicated in all systems [40]. GABA B agonist activity was not observed in spinal cord neurons [42]. The efficacy of the prototypical GABA B agonist baclofen in neuropathic pain is debated [27].…”

Section: Discussionmentioning

confidence: 99%

α-Conotoxin RgIA protects against the development of nerve injury-induced chronic pain and prevents both neuronal and glial derangement

Mannelli

Cinci

Micheli

et al. 2014

Pain

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Neuropathic pain affects millions of people worldwide causing substantial disability and greatly impairing quality of life. Commonly used analgesics or anti-hyperalgesic compounds are generally characterized by limited therapeutic outcomes. Thus, there is a compelling need for novel therapeutic strategies able to prevent nervous tissue alterations responsible for chronic pain. The α9α10 nAChR antagonist α-conotoxin RgIA (RgIA), a peptide isolated from the venom of a carnivorous cone snail, induces relief in both acute and chronic pain models. To evaluate potential disease-modifying effects of RgIA, the compound was given to rats following chronic constriction injury (CCI) of the sciatic nerve. Two or 10 nmol RgIA injected intramuscularly once a day for 14 days reduced the painful response to suprathreshold stimulation, increased pain threshold to non-noxious stimuli, and normalized alterations in hind limb weight bearing. Histological analysis of the sciatic nerve revealed that RgIA prevented CCI-induced decreases of axonal compactness and diameter, loss of myelin sheath and decreases in the fiber number. Moreover, RgIA significantly reduced edema and inflammatory infiltrate, including a decrease of CD86+ macrophages. In L4–L5 dors the inflammatory infiltrate consistent with a disease-modifying effect. In the dorsal horn of the spinal cord, RgIA prevented CCI-induced activation of microglia and astrocytes. These data suggest that RgIA-like compounds may represent a novel class of therapeutics for neuropathic pain that protects peripheral nervous tissues as well as prevents central maladaptive plasticity by inhibiting glial cell activation.

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“…However, Bu22 and TiIA have not been characterized functionally yet. Moreover, some CTxs such as Vc1.1 and AuIB have been found to possess potent analgesic activity [17,18]. In this paper, we described the discovery, synthesis and functional characterization of a novel α4/6 CTx named ViIA which was identified from the worm-hunting cone snail, Conus virgo (C. virgo).…”

Section: Introductionmentioning

confidence: 99%

A novel 4/6-type alpha-conotoxin ViIA selectively inhibits nAchR α3β2 subtype

Liu²,

Ding³

et al. 2015

ABBS

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Conotoxins (CTxs) are typically small peptides composed of 12-50 amino acid residues with 2-5 disulfide bridges. Most of them potently and selectively target a wide variety of ion channels and membrane receptors. They are highly valued as neuropharmacological probes and in pharmaceutical development. In this work, a novel α4/6-CTx named ViIA (RDCCSNPPCAHNNPDC-NH 2 ) was identified from a cDNA library of the venom ducts of Conus virgo (C. virgo). ViIA was then synthesized chemically and its disulfide connectivity was identified as 'C 1 -C 3 , C 2 -C 4 '. Its molecular targets were further assessed using two-electrode voltage clamping. The results indicated that ViIA selectively inhibited nicotinic acetylcholine receptor (nAChR) α3β2 subtype with an IC 50 of 845.5 nM, but did not target dorsal root ganglion sodium (Na + )-, potassium (K + )-or calcium (Ca 2+ )-ion channels.Further structure-activity relationship analysis demonstrated that Arg 1 and His 11 but not Asp 2 were the functional residues. To the best of our knowledge, ViIA is the first 4/6 α-CTx that selectively inhibits nAChR α3β2 subtype. This finding expands the knowledge of targets of α4/6-family CTxs.

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Intrathecal α-conotoxins Vc1.1, AuIB and MII acting on distinct nicotinic receptor subtypes reverse signs of neuropathic pain

Cited by 52 publications

References 36 publications

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

α-Conotoxin RgIA protects against the development of nerve injury-induced chronic pain and prevents both neuronal and glial derangement

A novel 4/6-type alpha-conotoxin ViIA selectively inhibits nAchR α3β2 subtype

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Intrathecal α-conotoxins Vc1.1, AuIB and MII acting on distinct nicotinic receptor subtypes reverse signs of neuropathic pain

Cited by 52 publications

References 36 publications

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron CaVCurrent

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron CaVCurrent

α-Conotoxin RgIA protects against the development of nerve injury-induced chronic pain and prevents both neuronal and glial derangement

A novel 4/6-type alpha-conotoxin ViIA selectively inhibits nAchR &alpha;3&beta;2 subtype

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Product

Resources

About

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

Limited Efficacy of α-Conopeptides, Vc1.1 and RgIA, To Inhibit Sensory Neuron Ca_VCurrent

A novel 4/6-type alpha-conotoxin ViIA selectively inhibits nAchR α3β2 subtype