Nociception involves complex signaling, yet intrinsic mechanisms bidirectionally regulating this process remain unexplored. Here, we show that the fibroblast growth factor 13 (FGF13)/Nav1.7 protein-protein interaction (PPI) complex bidirectionally modulates nociception, and that the FGF13/Nav1.7 ratio is upregulated in type 2 diabetic neuropathy (T2DN). PW164, an FGF13/Nav1.7 channel C-terminal tail domain (CTD) PPI interface inhibitor, which reduces complex assembly, selectively suppressed Na+ currents sensitized by capsaicin-induced activation of TRPV1 channels in human induced pluripotent stem cell-derived (hIPSC-derived) sensory neurons and inhibited mechanical and thermal hyperalgesia in mice. FGF13 silencing mimics PW164 activity in culture and in vivo. Conversely, ZL192, an FGF13 ligand that stabilizes FGF13/Nav1.7 CTD assembly, sensitized Na+ currents in hIPSC-derived sensory neurons and exerted pronociceptive behavioral responses in mice. ZL192's effects were abrogated by FGF13 silencing in culture and in vivo and recapitulated by FGF13 overexpression. In a model of T2DN, PW164 injection reduced mechanical hyperalgesia locally and contralaterally without systemic side effects. In donor-derived dorsal root ganglia neurons, FGF13 and Nav1.7 proteins colocalized, and the FGF13/Nav1.7 protein ratio was upregulated in patients with T2DN. Lastly, we found that SCN9A variant V1831F, associated with painless diabetic neuropathy, abolished PW164-directed modulation of the FGF13/Nav1.7 PPI interface. Thus, FGF13 is a rheostat of nociception and promising therapeutic target for diabetic neuropathy pain.
Sensory neuron–expressed FGF13 controls nociceptive signaling in diabetic neuropathy models / A.K. Singh, M. Bernabucci, N.M. Dvorak, Z. Haghighijoo, J. Di Re, N.A. Goode, F.K. Kadakia, L.A. Maile, O.O. Folorunso, P.A. Wadsworth, C.M. Tapia, P. Wang, J. Wang, H. Chen, Y. Xue, J. Singh, K. Hankerd, I.J. Gamez, M. Kager, V. Truong, P. Walsh, S.I. Shiers, N. Kuttanna, H. Liao, M. Marchi, E. Salvi, I. D'Amato, D. D'Amico, P. Arman, C.G. Faber, R.A. Malik, M. De Tommaso, D. Ziegler, K. Rajarathnam, T.A. Green, P.M. Grace, M.R. Sapio, M.J. Iadarola, G.D. Cuny, D.S. Chow, G. Lauria Pinter, S. Davidson, D.P. Green, J. La, J.M. Chung, J. Zhou, T.J. Price, E. Salisbury, S. Yuan, F. Laezza. - In: THE JOURNAL OF CLINICAL INVESTIGATION. - ISSN 1558-8238. - 135:14(2025 Jul 15), pp. 1-16. [10.1172/jci183749]
Sensory neuron–expressed FGF13 controls nociceptive signaling in diabetic neuropathy models
G. Lauria Pinter;
2025
Abstract
Nociception involves complex signaling, yet intrinsic mechanisms bidirectionally regulating this process remain unexplored. Here, we show that the fibroblast growth factor 13 (FGF13)/Nav1.7 protein-protein interaction (PPI) complex bidirectionally modulates nociception, and that the FGF13/Nav1.7 ratio is upregulated in type 2 diabetic neuropathy (T2DN). PW164, an FGF13/Nav1.7 channel C-terminal tail domain (CTD) PPI interface inhibitor, which reduces complex assembly, selectively suppressed Na+ currents sensitized by capsaicin-induced activation of TRPV1 channels in human induced pluripotent stem cell-derived (hIPSC-derived) sensory neurons and inhibited mechanical and thermal hyperalgesia in mice. FGF13 silencing mimics PW164 activity in culture and in vivo. Conversely, ZL192, an FGF13 ligand that stabilizes FGF13/Nav1.7 CTD assembly, sensitized Na+ currents in hIPSC-derived sensory neurons and exerted pronociceptive behavioral responses in mice. ZL192's effects were abrogated by FGF13 silencing in culture and in vivo and recapitulated by FGF13 overexpression. In a model of T2DN, PW164 injection reduced mechanical hyperalgesia locally and contralaterally without systemic side effects. In donor-derived dorsal root ganglia neurons, FGF13 and Nav1.7 proteins colocalized, and the FGF13/Nav1.7 protein ratio was upregulated in patients with T2DN. Lastly, we found that SCN9A variant V1831F, associated with painless diabetic neuropathy, abolished PW164-directed modulation of the FGF13/Nav1.7 PPI interface. Thus, FGF13 is a rheostat of nociception and promising therapeutic target for diabetic neuropathy pain.
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