Pain-causing stinging nettle toxins target TMEM233 to modulate NaV1.7 function
عرض / فتح
التاريخ
2023المؤلف
Jami, SinaDeuis, Jennifer R.
Klasfauseweh, Tabea
Cheng, Xiaoyang
Kurdyukov, Sergey
Chung, Felicity
Okorokov, Andrei L.
Li, Shengnan
Zhang, Jiangtao
Cristofori-Armstrong, Ben
Israel, Mathilde R.
Ju, Robert J.
Robinson, Samuel D.
Zhao, Peng
Ragnarsson, Lotten
Andersson, Åsa
Tran, Poanna
Schendel, Vanessa
McMahon, Kirsten L.
Tran, Hue N. T.
Chin, Yanni K.-Y.
Zhu, Yifei
Liu, Junyu
Crawford, Theo
Purushothamvasan, Saipriyaa
Habib, Abdella M.
Andersson, David A.
Rash, Lachlan D.
Wood, John N.
Zhao, Jing
Stehbens, Samantha J.
Mobli, Mehdi
Leffler, Andreas
Jiang, Daohua
Cox, James J.
Waxman, Stephen G.
Dib-Hajj, Sulayman D.
Gregory Neely, G.
Durek, Thomas
Vetter, Irina
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البيانات الوصفية
عرض كامل للتسجيلةالملخص
Voltage-gated sodium (NaV) channels are critical regulators of neuronal excitability and are targeted by many toxins that directly interact with the pore-forming α subunit, typically via extracellular loops of the voltage-sensing domains, or residues forming part of the pore domain. Excelsatoxin A (ExTxA), a pain-causing knottin peptide from the Australian stinging tree Dendrocnide excelsa, is the first reported plant-derived NaV channel modulating peptide toxin. Here we show that TMEM233, a member of the dispanin family of transmembrane proteins expressed in sensory neurons, is essential for pharmacological activity of ExTxA at NaV channels, and that co-expression of TMEM233 modulates the gating properties of NaV1.7. These findings identify TMEM233 as a previously unknown NaV1.7-interacting protein, position TMEM233 and the dispanins as accessory proteins that are indispensable for toxin-mediated effects on NaV channel gating, and provide important insights into the function of NaV channels in sensory neurons.
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