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智力残疾和癫痫患者大脑葡萄糖转运体SLC45A1的功能障碍

Dysfunction of the Cerebral Glucose Transporter SLC45A1 in Individuals with Intellectual Disability and Epilepsy.

作者信息

Srour Myriam, Shimokawa Noriaki, Hamdan Fadi F, Nassif Christina, Poulin Chantal, Al Gazali Lihadh, Rosenfeld Jill A, Koibuchi Noriyuki, Rouleau Guy A, Al Shamsi Aisha, Michaud Jacques L

机构信息

Department of Pediatrics, McGill University, Montreal, QC H3A 1A4, Canada; Department of Neurology and Neurosurgery, McGill University, Montreal, QC H3A 1A4, Canada.

Department of Integrative Physiology, Gunma University Graduate School of Medicine, Gunma 371-8511, Japan; Department of Nutrition, Takasaki University of Health and Welfare, Gunma 370-0033, Japan.

出版信息

Am J Hum Genet. 2017 May 4;100(5):824-830. doi: 10.1016/j.ajhg.2017.03.009. Epub 2017 Apr 20.

DOI:10.1016/j.ajhg.2017.03.009
PMID:28434495
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5420346/
Abstract

Glucose transport across the blood brain barrier and into neural cells is critical for normal cerebral physiologic function. Dysfunction of the cerebral glucose transporter GLUT1 (encoded by SLC2A1) is known to result in epilepsy, intellectual disability (ID), and movement disorder. Using whole-exome sequencing, we identified rare homozygous missense variants (c.526C>T [p.Arg176Trp] and c.629C>T [p.Ala210Val]) in SLC45A1, encoding another cerebral glucose transporter, in two consanguineous multiplex families with moderate to severe ID, epilepsy, and variable neuropsychiatric features. The variants segregate with the phenotype in these families, affect well-conserved amino acids, and are predicted to be damaging by in silico programs. Intracellular glucose transport activity of the p.Arg176Trp and p.Ala210Val SLC45A1 variants, measured in transfected COS-7 cells, was approximately 50% (p = 0.013) and 33% (p = 0.008) lower, respectively, than that of intact SLC45A1. These results indicate that residues at positions 176 and 210 are critical for the glucose transport activity of SLC45A1. All together, our data strongly suggest that recessive mutations in SLC45A1 cause ID and epilepsy. SLC45A1 thus represents the second cerebral glucose transporter, in addition to GLUT1, to be involved in neurodevelopmental disability. Identification of additional individuals with mutations in SLC45A1 will allow better definition of the associated phenotypic spectrum and the exploration of potential targeted treatment options.

摘要

葡萄糖穿过血脑屏障并进入神经细胞对于正常的脑生理功能至关重要。已知脑葡萄糖转运蛋白GLUT1(由SLC2A1编码)功能异常会导致癫痫、智力残疾(ID)和运动障碍。我们通过全外显子组测序,在两个患有中度至重度ID、癫痫以及各种神经精神特征的近亲多成员家庭中,发现了编码另一种脑葡萄糖转运蛋白的SLC45A1中存在罕见的纯合错义变体(c.526C>T [p.Arg176Trp]和c.629C>T [p.Ala210Val])。这些变体在这些家庭中与表型共分离,影响高度保守的氨基酸,并且通过计算机程序预测具有损害性。在转染的COS-7细胞中测量的p.Arg176Trp和p.Ala210Val SLC45A1变体的细胞内葡萄糖转运活性分别比完整的SLC45A1低约50%(p = 0.013)和33%(p = 0.008)。这些结果表明176位和210位的残基对于SLC45A1的葡萄糖转运活性至关重要。总之,我们的数据强烈表明SLC45A1中的隐性突变会导致ID和癫痫。因此,除了GLUT1之外,SLC45A1是第二种参与神经发育障碍的脑葡萄糖转运蛋白。鉴定更多SLC45A1突变个体将有助于更好地定义相关的表型谱并探索潜在的靶向治疗方案。

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