Department of Clinical Biochemistry, Cambridge Institute for Medical Research, Addenbrooke's Hospital, Cambridge CB2 0XY, United Kingdom.
Proc Natl Acad Sci U S A. 2010 Mar 16;107(11):5148-53. doi: 10.1073/pnas.0913181107. Epub 2010 Mar 8.
The gene SCN9A is responsible for three human pain disorders. Nonsense mutations cause a complete absence of pain, whereas activating mutations cause severe episodic pain in paroxysmal extreme pain disorder and primary erythermalgia. This led us to investigate whether single nucleotide polymorphisms (SNPs) in SCN9A were associated with differing pain perception in the general population. We first genotyped 27 SCN9A SNPs in 578 individuals with a radiographic diagnosis of osteoarthritis and a pain score assessment. A significant association was found between pain score and SNP rs6746030; the rarer A allele was associated with increased pain scores compared to the commoner G allele (P = 0.016). This SNP was then further genotyped in 195 pain-assessed people with sciatica, 100 amputees with phantom pain, 179 individuals after lumbar discectomy, and 205 individuals with pancreatitis. The combined P value for increased A allele pain was 0.0001 in the five cohorts tested (1277 people in total). The two alleles of the SNP rs6746030 alter the coding sequence of the sodium channel Nav1.7. Each was separately transfected into HEK293 cells and electrophysiologically assessed by patch-clamping. The two alleles showed a difference in the voltage-dependent slow inactivation (P = 0.042) where the A allele would be predicted to increase Nav1.7 activity. Finally, we genotyped 186 healthy females characterized by their responses to a diverse set of noxious stimuli. The A allele of rs6746030 was associated with an altered pain threshold and the effect mediated through C-fiber activation. We conclude that individuals experience differing amounts of pain, per nociceptive stimulus, on the basis of their SCN9A rs6746030 genotype.
SCN9A 基因负责三种人类疼痛疾病。无义突变导致完全没有疼痛,而激活突变导致阵发性极痛障碍和原发性红斑痛的严重发作性疼痛。这促使我们研究 SCN9A 中的单核苷酸多态性 (SNP) 是否与普通人群中不同的疼痛感知有关。我们首先在 578 名经放射诊断为骨关节炎且疼痛评分评估的个体中对 27 个 SCN9A SNP 进行了基因分型。发现疼痛评分与 SNP rs6746030 之间存在显著关联;与常见的 G 等位基因相比,罕见的 A 等位基因与疼痛评分增加相关(P=0.016)。然后,我们在 195 名坐骨神经痛评估疼痛的人、100 名有幻肢痛的截肢者、179 名腰椎间盘切除术后的人和 205 名胰腺炎患者中进一步对 SNP rs6746030 进行了基因分型。在测试的五个队列(共 1277 人)中,增加 A 等位基因疼痛的综合 P 值为 0.0001。SNP rs6746030 的两个等位基因改变了钠通道 Nav1.7 的编码序列。将每个等位基因分别转染到 HEK293 细胞中,并通过膜片钳技术进行电生理评估。两个等位基因在电压依赖性慢失活方面存在差异(P=0.042),预计 A 等位基因会增加 Nav1.7 的活性。最后,我们对 186 名健康女性进行了基因分型,这些女性的特征是对一组不同的有害刺激的反应。SNP rs6746030 的 A 等位基因与疼痛阈值改变有关,这种影响是通过 C 纤维激活介导的。我们得出结论,个体基于其 SCN9A rs6746030 基因型对每个伤害性刺激的疼痛程度不同。