Novel charged sodium and calcium channel inhibitor active against neurogenic inflammation

Lee, Seungkyu; Jo, Sooyeon; Talbot, Sébastien; Zhang, Han-Xiong Bear; Kotoda, Masakazu; Andrews, Nick; Puopolo, Michelino; Liu, Pin W.; Jacquemont, Thomas; Pascal, Maud; Heckman, Laurel M.; Jain, Aakanksha; Lee, Jinbo; Woolf, Clifford J.; Bean, Bruce P.

doi:10.7554/elife.48118

Cited by 31 publications

(36 citation statements)

References 112 publications

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“…5d) in which Ca Our data are consistent with the analgesic actions of locally applied combined inhibitors of Ca V 2.2 and Na V 1.7 channels in different mouse models of inflammatory pain. 24 While previous studies have focused almost exclusively on centrally located Ca V 2.2 channels, we show that peripheral Ca V 2.2 channels in skin are essential for thermal hyperalgesia, a [11] finding that may help explain previous findings. [32][33][34] For example, studies of KO mice show reduced hyperalgesia induced by formalin but in some of these studies, this occurs independent of effects on acute nociception.…”

Section: P2x7 Receptor Activation Induces Hyperalgesia Downstream Of supporting

confidence: 59%

“…18,19,42,64 Peripheral inhibition of Ca V 2.2 channels for analgesia Ca V 2.2 channels are important targets for the development of novel analgesics as evidenced by the initial clinical success of ω-conotoxin MVIIA as an analgesic in patients with otherwise intractable chronic pain. [3][4][5][6]68 Our data raise the possibility that local injection of ω-conotoxin MVIIA, or, as shown by others, dual inhibitors of Ca V 2.2 and Na V 1.7, 24 may have clinical utility against certain inflammatory responses, by interrupting signals locally, thereby avoiding severe, debilitating side-effects 3,6,9,69 that limit that current use of Ca V 2.2 channel blockers. 70 Intraplantar ω-conotoxin MVIIA was highly effective at inhibiting thermal hyperalgesia independent of effects on basal nociception, central Ca V 2.2 channels (Fig.…”

Section: Peripheral Ca V 22 Channels In Skin Required For Thermal Hymentioning

confidence: 94%

“…[56][57][58][59][60][61] Interestingly, a combined inhibitor of Ca V 2.2 and Na V 1.7 channels applied at peripheral sites in animal models of more prolonged inflammation were found to be effective on both thermal and mechanical hyperalgesia. 24 It will be interesting to tease out the differences in the role of Ca V 2.2 channels in the induction of transient and maintenance of more prolonged forms of hyperalgesia.…”

Section: Peripheral Ca V 22 Channels In Skin Required For Thermal Hymentioning

confidence: 99%

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Peripheral voltage-gated calcium channels in skin are essential for transient neurogenic thermal hyperalgesia in mice

Dubreuil

Soto²,

Li³

et al. 2020

Preprint

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Voltage-gated CaV2.2 calcium channels are expressed in nociceptors, at pre-synaptic terminals, soma, and axons. CaV2.2 channel inhibitors applied to the spinal cord relieve pain in humans and rodents, especially during pathological pain, but a biological function of nociceptor CaV2.2 channels in processing of nociception, outside pre-synaptic terminals, is not explored. Here, we demonstrate that functional CaV2.2 channels in skin are required for thermal hyperalgesia following intraplantar capsaicin exposure. We provide evidence that CaV2.2 channels at nociceptor free endings release inflammatory signals, ATP and IL-1β. We assess the role of CaV2.2 splice isoforms to capsaicin-induced hyperalgesia measured by thermal and mechanical stimuli. Our data reveal a critical role for peripheral CaV2.2 channels in skin in neurogenic thermal hyperalgesia but not in mechanical hypersensitivity. Inhibition, or the complete lack, of peripheral CaV2.2 channels blunts the hyperalgesia response in vivo.

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Section: P2x7 Receptor Activation Induces Hyperalgesia Downstream Of supporting

confidence: 59%

Section: Peripheral Ca V 22 Channels In Skin Required For Thermal Hymentioning

confidence: 94%

Section: Peripheral Ca V 22 Channels In Skin Required For Thermal Hymentioning

confidence: 99%

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Peripheral voltage-gated calcium channels in skin are essential for transient neurogenic thermal hyperalgesia in mice

Dubreuil

Soto²,

Li³

et al. 2020

Preprint

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“…While not knowing which Ca 2+ channel is targeted by 1-O-acetylgeopyxin A is a limitation of this study, dual or multi-target antagonists may have a better efficacy profile. Along these lines, it was recently reported that a derivatized version of a cationic N-type calcium channel blocker inhibited CaV2.2 (N-type) calcium channels as well as both tetrodotoxin-sensitive and tetrodotoxin-resistant voltage-gated sodium channels and was highly effective in producing long-lasting analgesia in mouse models of surgical and inflammatory pain [29]. Further, the molecular action of gabapentinoids may involve the calcium channel auxiliary protein α2δ-1's action on CaV2.2 [30], thrombospondin [31], or Nmethyl-D-aspartate receptors [32], highlighting the potential of multi-target engagement to elicit analgesia.…”

Section: Discussionmentioning

confidence: 99%

1-O-Acetylgeopyxin A, a derivative of a fungal metabolite, blocks tetrodotoxin-sensitive voltage-gated sodium, calcium channels and neuronal excitability which correlates with inhibition of neuropathic pain

et al. 2020

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Chronic pain can be the result of an underlying disease or condition, medical treatment, inflammation, or injury. The number of persons experiencing this type of pain is substantial, affecting upwards of 50 million adults in the United States. Pharmacotherapy of most of the severe chronic pain patients includes drugs such as gabapentinoids, re-uptake blockers and opioids. Unfortunately, gabapentinoids are not effective in up to two-thirds of this population and although opioids can be initially effective, their long-term use is associated with multiple side effects. Therefore, there is a great need to develop novel non-opioid alternative therapies to relieve chronic pain. For this purpose, we screened a small library of natural products and their derivatives in the search for pharmacological inhibitors of voltage-gated calcium and sodium channels, which are outstanding molecular targets due to their important roles in nociceptive pathways. We discovered that the acetylated derivative of the entkaurane diterpenoid, geopyxin A, 1-O-acetylgeopyxin A, blocks voltage-gated calcium and tetrodotoxin-sensitive voltage-gated sodium channels but not tetrodotoxin-resistant sodium channels in dorsal root ganglion (DRG) neurons. Consistent with inhibition of voltage-gated sodium and calcium channels, 1-O-acetylgeopyxin A reduced reduce action potential firing frequency and increased firing threshold (rheobase) in DRG neurons. Finally, we identified the potential of 1-O-acetylgeopyxin A to reverse mechanical allodynia in a preclinical rat model of HIVinduced sensory neuropathy. Dual targeting of both sodium and calcium channels may permit block of nociceptor excitability and of release of pro-nociceptive transmitters. Future studies will harness the core structure of geopyxins

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“…A manual Von Frey assay was used to assess mechanical sensitivity in mice before and after UV burn, as previously described (Lee et al, 2019). After mice were habituated to the testing cage (7.5 × 7.5 × 15 cm) with a metal grid floor for 45 min for 2 days, baseline values were measured using nine von Frey filaments with different bending forces (0.04, 0.07, 0.16, 0.4, 0.6, 1, 1.4, 2, and 4 g).…”

Section: Behavioral Measurements Of Sensory and Motor Functionmentioning

confidence: 99%

Inhibiting cough by silencing large pore-expressing airway sensory neurons with a charged sodium channel blocker

Tochitsky

Andrews

et al. 2020

Preprint

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Although multiple diseases of the respiratory system cause cough, there are few effective treatments for this common condition. We previously developed a strategy to treat pain and itch via the long-lasting inhibition of nociceptor sensory neurons with QX-314, a cationic sodium channel blocker that selectively enters only into activated nociceptors by permeating through the endogenous TRPV1 and TRPA1 large pore ion channels they express. In this study we design and characterize BW-031, a novel cationic compound with ~6-fold greater potency than QX-314 for inhibiting sodium channels when introduced inside cells and with minimal extracellular activity. We show that inhalation of aerosolized BW-031 effectively inhibits citric acid-induced cough in an allergic inflammation guinea pig cough model. These data support the use of charged sodium channel blockers for the selective inhibition of airway sensory neurons with activated large pore channels as a novel targeted therapy for treating cough.

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Novel charged sodium and calcium channel inhibitor active against neurogenic inflammation

Cited by 31 publications

References 112 publications

Peripheral voltage-gated calcium channels in skin are essential for transient neurogenic thermal hyperalgesia in mice

Peripheral voltage-gated calcium channels in skin are essential for transient neurogenic thermal hyperalgesia in mice

1-O-Acetylgeopyxin A, a derivative of a fungal metabolite, blocks tetrodotoxin-sensitive voltage-gated sodium, calcium channels and neuronal excitability which correlates with inhibition of neuropathic pain

Inhibiting cough by silencing large pore-expressing airway sensory neurons with a charged sodium channel blocker

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