Familial episodic limb pain in kindreds with novel Nav1.9 mutations.
Risako KabataHiroko OkudaAtsuko NoguchiDaiki KondoMichimasa FujiwaraKenichiro HataYoshifumi KatoKen IshikawaManabu TanakaYuji SekineNozomi HishikawaTomoyuki MizukamiJunichi ItoManami AkasakaKen SakuraiTakeshi YoshidaHironori MinouraTakashi HayashiKohei InoshitaMisayo MatsuyamaNoriko KinjoYang CaoSumiko InoueHatasu KobayashiKouji H HaradaShohab YoussefianTsutomu TakahashiAkio KoizumiPublished in: PloS one (2018)
We previously performed genetic analysis in six unrelated families with infantile limb pain episodes, characterized by cold-induced deterioration and mitigation in adolescence, and reported two new mutations p.R222H/S in SCN11A responsible for these episodes. As no term described this syndrome (familial episodic pain: FEP) in Japanese, we named it as"". In the current study, we recruited an additional 42 new unrelated Japanese FEP families, between March 2016 and March 2018, and identified a total of 11 mutations in SCN11A: p.R222H in seven families, and p.R225C, p.F814C, p.F1146S, or p.V1184A, in independent families. A founder mutation, SCN11A p.R222H was confirmed to be frequently observed in patients with FEP in the Tohoku region of Japan. We also identified two novel missense variants of SCN11A, p.F814C and p.F1146S. To evaluate the effects of these latter two mutations, we generated knock-in mouse models harboring p.F802C (F802C) and p.F1125S (F1125S), orthologues of the human p.F814C and p.F1146S, respectively. We then performed electrophysiological investigations using dorsal root ganglion neurons dissected from the 6-8 week-old mice. Dissected neurons of F802C and F1125S mice showed increased resting membrane potentials and firing frequency of the action potentials (APs) by high input-current stimulus compared with WT mice. Furthermore, the firing probability of evoked APs increased in low stimulus input in F1125S mice, whereas several AP parameters and current threshold did not differ significantly between either of the mutations and WT mice. These results suggest a higher level of excitability in the F802C or F1125S mice than in WT, and indicate that these novel mutations are gain of function mutations. It can be expected that a considerable number of potential patients with FEP may be the result of gain of function SCN11A mutations.
Keyphrases
- high fat diet induced
- neuropathic pain
- chronic pain
- spinal cord
- pain management
- endothelial cells
- randomized controlled trial
- climate change
- oxidative stress
- transcription factor
- wild type
- insulin resistance
- preterm infants
- copy number
- metabolic syndrome
- risk assessment
- gene expression
- dna methylation
- heart rate
- adipose tissue
- blood pressure
- case report
- genome wide
- optical coherence tomography