Zhang Zhiping, Schmelz Martin, Segerdahl Märta, Quiding Hans, Centerholt Carina, Juréus Anna, Carr Thomas Hedley, Whiteley Jessica, Salter Hugh, Kvernebo Mari Skylstad, Ørstavik Kristin, Helås Tormod, Kleggetveit Inge-Petter, Lunden Lars Kristian, Jørum Ellen
AstraZeneca R&D, Södertälje, Sweden.
Department of Anesthesiology Mannheim, Heidelberg University, Heidelberg, Germany.
Scand J Pain. 2014 Oct 1;5(4):217-225. doi: 10.1016/j.sjpain.2014.09.002.
Background and aim "Gain-of-function" mutations in voltage-gated sodium channel NaV1.7 have been linked to erythromelalgia (EM), characterized by painful hot and red hands and feet. We investigated the proportion of patients with EM that carry a mutation in NaV1.7 or in other pain-related genes and studied possible clinical differences. Methods In this study, 48 patients with EM were screened for mutations in a total of 29 candidate genes, including all sodium channel subunits, transient receptor potential channels (TRPA1, TRPV1, TRPM8), neurotrophic factors (NGF, NGFR, BDNF, GDNF, NTRK1 and WNK1) and other known pain-related genes (CACNG2, KCNS1, COMT, P2RX3, TAC1, TACR1), using a combination of next generation sequencing and classical Sanger sequencing. Results In 7/48 patients protein-modifying mutations of NaV1.7 (P187L, I228M, I848T (n = 4) and N1245S) were identified. Patients with the I848T mutation could be identified clinically based on early onset and severity of the disease. In contrast, there were no clinical characteristics that differentiated the other patients with NaV1.7 mutation from those patients without. We also found more than twenty rare protein-modifying genetic variants in the genes coding for sodium channels (NaV1.8, NaV1.9, NaV1.6, NaV1.5, NaV2.1, SCN1B, SCN3B), transient receptor potential channel (TRPA1, TRPV1), and other pain-related targets (WNK1 and NGFR). Conclusion We conclude that functionally characterized mutations of NaV1.7 (I848T) are present only in a minority of patient with EM. Albeit the majority of patients (27/48) carried rare protein-modifying mutations the vast majority of those will most probably not be causally linked to their disease. Implications The key question remaining to be solved is the possible role of rare variants of NaV1.8, NaV1.9, or beta-subunits in provoking chronic pain conditions or even EM.
背景与目的 电压门控钠通道NaV1.7中的“功能获得性”突变与红斑性肢痛症(EM)相关,其特征为手脚发热、发红并伴有疼痛。我们调查了携带NaV1.7或其他疼痛相关基因突变的EM患者比例,并研究了可能存在的临床差异。方法 在本研究中,采用二代测序和经典桑格测序相结合的方法,对48例EM患者进行了总共29个候选基因的突变筛查,这些基因包括所有钠通道亚基、瞬时受体电位通道(TRPA1、TRPV1、TRPM8)、神经营养因子(NGF、NGFR、BDNF、GDNF、NTRK1和WNK1)以及其他已知的疼痛相关基因(CACNG2、KCNS1、COMT、P2RX3、TAC1、TACR1)。结果 在48例患者中的7例中鉴定出了NaV1.7的蛋白质修饰突变(P187L、I228M、I848T(n = 4)和N1245S)。携带I848T突变的患者可根据疾病的早发和严重程度在临床上得以识别。相比之下,没有临床特征能够区分其他携带NaV1.7突变的患者与未携带该突变的患者。我们还在编码钠通道(NaV1.8、NaV1.9、NaV1.6、NaV1.5、NaV2.1、SCN1B、SCN3B)、瞬时受体电位通道(TRPA1、TRPV1)以及其他疼痛相关靶点(WNK1和NGFR)的基因中发现了二十多种罕见的蛋白质修饰遗传变异。结论 我们得出结论,功能特征性的NaV1.7突变(I848T)仅存在于少数EM患者中。尽管大多数患者(27/48)携带罕见的蛋白质修饰突变,但其中绝大多数很可能与他们的疾病没有因果关系。启示 有待解决的关键问题是NaV1.8、NaV1.9或β亚基的罕见变异在引发慢性疼痛状况甚至EM方面可能发挥的作用。
