Epilepsy Research Centre, Department of Medicine, University of Melbourne, Austin Health, Melbourne, Australia.
Ann Neurol. 2012 Nov;72(5):807-15. doi: 10.1002/ana.23702.
We examined whether glucose transporter 1 (GLUT1) deficiency causes common idiopathic generalized epilepsies (IGEs).
The IGEs are common, heritable epilepsies that usually follow complex inheritance; currently little is known about their genetic architecture. Previously considered rare, GLUT1 deficiency, due to mutations in SLC2A1, leads to failure of glucose transport across the blood-brain barrier and inadequate glucose for brain metabolism. GLUT1 deficiency was first associated with an encephalopathy and more recently found in rare dominant families with epilepsy and paroxysmal exertional dyskinesia (PED). Five hundred four probands with IGEs and 470 controls underwent SLC2A1 sequencing. Glucose transport was assayed following expression of SLC2A1 variants in Xenopus oocytes. All available relatives were phenotyped, and SLC2A1 was sequenced.
Functionally validated mutations in SLC2A1 were present in 7 of 504 (1.4%) probands and 0 of 470 controls. PED, undiagnosed prior to study, occurred in 1 proband and 3 of 13 relatives with mutations. The IGEs in probands and relatives were indistinguishable from typical IGE. Three cases (0.6%) had mutations of large functional effect and showed autosomal dominant inheritance or were de novo. Four (0.8%) cases had a subtle functional effect; 2 showed possible dominant inheritance, and 2 did not. These alleles leading to subtle functional impairment may contribute to complex, polygenic inheritance of IGE.
SLC2A1 mutations contribute to approximately 1% of IGE both as a dominant gene and as a susceptibility allele in complex inheritance. Diagnosis of GLUT1 deficiency has important treatment (ketogenic diet) and genetic counseling implications. The mechanism of restricted glucose delivery differs from the current focus on IGEs as ion channel disorders.
我们研究葡萄糖转运蛋白 1(GLUT1)缺陷是否会导致常见的特发性全面性癫痫(IGE)。
IGE 是常见的遗传性癫痫,通常具有复杂的遗传方式;目前,人们对其遗传结构知之甚少。GLUT1 缺陷由于 SLC2A1 基因突变,导致葡萄糖无法穿过血脑屏障进行转运,从而使大脑代谢得不到足够的葡萄糖,此前被认为较为罕见。GLUT1 缺陷最初与脑病有关,最近在伴有癫痫和阵发性运动障碍(PED)的罕见显性家族中也发现了该缺陷。504 名 IGE 患者和 470 名对照者接受了 SLC2A1 测序。在非洲爪蟾卵母细胞中表达 SLC2A1 变体后,检测葡萄糖转运。对所有可供研究的亲属进行表型分析,并对 SLC2A1 进行测序。
在 504 名患者中有 7 名(1.4%)和 470 名对照者中无 SLC2A1 功能验证突变。PED 在研究前未被诊断,在 1 名患者和 3 名携带突变的 13 名亲属中出现。患者及其亲属的 IGE 与典型 IGE 无法区分。有 3 例(0.6%)为大功能效应突变,表现为常染色体显性遗传或新生突变。4 例(0.8%)有轻微的功能影响;其中 2 例可能表现为显性遗传,2 例则无。导致轻微功能障碍的这些等位基因可能导致 IGE 的复杂多基因遗传。
SLC2A1 突变导致大约 1%的 IGE 为显性基因,在复杂遗传中为易感等位基因。GLUT1 缺陷的诊断对治疗(生酮饮食)和遗传咨询具有重要意义。葡萄糖输送受限的机制与当前离子通道障碍为主的 IGE 关注点不同。
