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- Iulia Blesneac, Andreas C Themistocleous, Carl Fratter, Linus J Conrad, Juan D Ramirez, James J Cox, Solomon Tesfaye, Pallai R Shillo, RiceAndrew S CASCPain Research Group & Pain Medicine, Imperial College London, Chelsea and Westminster Hospital Campus, London, United Kingdom., Stephen J Tucker, and BennettDavid L HDLHNuffield Department of Clinical Neurosciences, University of Oxford, Oxford, United Kingdom.OXION Initiative in Ion Channels and Disease, University of Oxford, Oxford, United Kingdom..
- Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, United Kingdom.
- Pain. 2018 Mar 1; 159 (3): 469-480.
AbstractDiabetic peripheral neuropathy (DPN) is a common disabling complication of diabetes. Almost half of the patients with DPN develop neuropathic pain (NeuP) for which current analgesic treatments are inadequate. Understanding the role of genetic variability in the development of painful DPN is needed for improved understanding of pain pathogenesis for better patient stratification in clinical trials and to target therapy more appropriately. Here, we examined the relationship between variants in the voltage-gated sodium channel NaV1.7 and NeuP in a deeply phenotyped cohort of patients with DPN. Although no rare variants were found in 78 participants with painless DPN, we identified 12 rare NaV1.7 variants in 10 (out of 111) study participants with painful DPN. Five of these variants had previously been described in the context of other NeuP disorders and 7 have not previously been linked to NeuP. Those patients with rare variants reported more severe pain and greater sensitivity to pressure stimuli on quantitative sensory testing. Electrophysiological characterization of 2 of the novel variants (M1852T and T1596I) demonstrated that gain of function changes as a consequence of markedly impaired channel fast inactivation. Using a structural model of NaV1.7, we were also able to provide further insight into the structural mechanisms underlying fast inactivation and the role of the C-terminal domain in this process. Our observations suggest that rare NaV1.7 variants contribute to the development NeuP in patients with DPN. Their identification should aid understanding of sensory phenotype, patient stratification, and help target treatments effectively.
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