Pharmacological characterisation of the highly Na V 1.7 selective spider venom peptide Pn3a

Human genetic studies have implicated the voltage-gated sodium channel Na 1.7 as a therapeutic target for the treatment of pain. A novel peptide, μ-theraphotoxin-Pn3a, isolated from venom of the tarantula Pamphobeteus nigricolor, potently inhibits Na 1.7 (IC 0.9 nM) with at least 40-1000-fold select...

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Veröffentlicht in:	Scientific reports 2017-01, Vol.7, p.40883
Hauptverfasser:	Deuis, Jennifer R, Dekan, Zoltan, Wingerd, Joshua S, Smith, Jennifer J, Munasinghe, Nehan R, Bhola, Rebecca F, Imlach, Wendy L, Herzig, Volker, Armstrong, David A, Rosengren, K Johan, Bosmans, Frank, Waxman, Stephen G, Dib-Hajj, Sulayman D, Escoubas, Pierre, Minett, Michael S, Christie, Macdonald J, King, Glenn F, Alewood, Paul F, Lewis, Richard J, Wood, John N, Vetter, Irina
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creator	Deuis, Jennifer R Dekan, Zoltan Wingerd, Joshua S Smith, Jennifer J Munasinghe, Nehan R Bhola, Rebecca F Imlach, Wendy L Herzig, Volker Armstrong, David A Rosengren, K Johan Bosmans, Frank Waxman, Stephen G Dib-Hajj, Sulayman D Escoubas, Pierre Minett, Michael S Christie, Macdonald J King, Glenn F Alewood, Paul F Lewis, Richard J Wood, John N Vetter, Irina
description	Human genetic studies have implicated the voltage-gated sodium channel Na 1.7 as a therapeutic target for the treatment of pain. A novel peptide, μ-theraphotoxin-Pn3a, isolated from venom of the tarantula Pamphobeteus nigricolor, potently inhibits Na 1.7 (IC 0.9 nM) with at least 40-1000-fold selectivity over all other Na subtypes. Despite on-target activity in small-diameter dorsal root ganglia, spinal slices, and in a mouse model of pain induced by Na 1.7 activation, Pn3a alone displayed no analgesic activity in formalin-, carrageenan- or FCA-induced pain in rodents when administered systemically. A broad lack of analgesic activity was also found for the selective Na 1.7 inhibitors PF-04856264 and phlotoxin 1. However, when administered with subtherapeutic doses of opioids or the enkephalinase inhibitor thiorphan, these subtype-selective Na 1.7 inhibitors produced profound analgesia. Our results suggest that in these inflammatory models, acute administration of peripherally restricted Na 1.7 inhibitors can only produce analgesia when administered in combination with an opioid.
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A novel peptide, μ-theraphotoxin-Pn3a, isolated from venom of the tarantula Pamphobeteus nigricolor, potently inhibits Na 1.7 (IC 0.9 nM) with at least 40-1000-fold selectivity over all other Na subtypes. Despite on-target activity in small-diameter dorsal root ganglia, spinal slices, and in a mouse model of pain induced by Na 1.7 activation, Pn3a alone displayed no analgesic activity in formalin-, carrageenan- or FCA-induced pain in rodents when administered systemically. A broad lack of analgesic activity was also found for the selective Na 1.7 inhibitors PF-04856264 and phlotoxin 1. However, when administered with subtherapeutic doses of opioids or the enkephalinase inhibitor thiorphan, these subtype-selective Na 1.7 inhibitors produced profound analgesia. 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A novel peptide, μ-theraphotoxin-Pn3a, isolated from venom of the tarantula Pamphobeteus nigricolor, potently inhibits Na 1.7 (IC 0.9 nM) with at least 40-1000-fold selectivity over all other Na subtypes. Despite on-target activity in small-diameter dorsal root ganglia, spinal slices, and in a mouse model of pain induced by Na 1.7 activation, Pn3a alone displayed no analgesic activity in formalin-, carrageenan- or FCA-induced pain in rodents when administered systemically. A broad lack of analgesic activity was also found for the selective Na 1.7 inhibitors PF-04856264 and phlotoxin 1. However, when administered with subtherapeutic doses of opioids or the enkephalinase inhibitor thiorphan, these subtype-selective Na 1.7 inhibitors produced profound analgesia. 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title	Pharmacological characterisation of the highly Na V 1.7 selective spider venom peptide Pn3a
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