AIFM1 基因突变导致 X 连锁儿童小脑共济失调，对核黄素部分有反应。

Mutations in AIFM1 cause an X-linked childhood cerebellar ataxia partially responsive to riboflavin.

机构信息

Pediatric Neurology Unit, Edmond and Lilly Safra Children Hospital, Chaim Sheba Medical Center, 52621 Ramat Gan, Israel; Pinchas Borenstein Talpiot Medical Leadership Program, Chaim Sheba Medical Center, 52621 Ramat Gan, Israel; The Sackler School of Medicine, Tel Aviv University, Tel Aviv, Israel.

Cancer Research Center, Pediatric Hemato/oncology Unit, Edmond and Lily Children's Hospital, Chaim Sheba Medical Center, 52621 Ramat Gan, Israel.

出版信息

Eur J Paediatr Neurol. 2018 Jan;22(1):93-101. doi: 10.1016/j.ejpn.2017.09.004. Epub 2017 Sep 15.

DOI:10.1016/j.ejpn.2017.09.004

PMID:28967629

Abstract

BACKGROUND

AIFM1 encodes a mitochondrial flavoprotein with a dual role (NADH oxidoreductase and regulator of apoptosis), which uses riboflavin as a cofactor. Mutations in the X-linked AIFM1 were reported in relation to two main phenotypes: a severe infantile mitochondrial encephalomyopathy and an early-onset axonal sensorimotor neuropathy with hearing loss. In this paper we report two unrelated males harboring AIFM1 mutations (one of which is novel) who display distinct phenotypes including progressive ataxia which partially improved with riboflavin treatment.

METHODS

For both patients trio whole exome sequencing was performed. Validation and segregation were performed with Sanger sequencing. Following the diagnosis, patients were treated with up to 200 mg riboflavin/day for 12 months. Ataxia was assessed by the ICARS scale at baseline, and 6 and 12 months following treatment.

RESULTS

Patient 1 presented at the age of 5 years with auditory neuropathy, followed by progressive ataxia, vermian atrophy and axonal neuropathy. Patient 2 presented at the age of 4.5 years with severe limb and palatal myoclonus, followed by ataxia, cerebellar atrophy, ophthalmoplegia, sensorineural hearing loss, hyporeflexia and cardiomyopathy. Two deleterious missense mutations were found in the AIFM1 gene: p. Met340Thr mutation located in the FAD dependent oxidoreductase domain and the novel p. Thr141Ile mutation located in a highly conserved DNA binding motif. Ataxia score, decreased by 39% in patient 1 and 20% in patient 2 following 12 months of treatment.

CONCLUSION

AIFM1 mutations cause childhood cerebellar ataxia, which may be partially treatable in some patients with high dose riboflavin.

摘要

背景

AIFM1 编码一种具有双重作用（NADH 氧化还原酶和凋亡调节剂）的线粒体黄素蛋白，它使用核黄素作为辅助因子。X 连锁 AIFM1 的突变与两种主要表型有关：严重的婴儿期线粒体脑肌病和早发性轴索性感觉运动神经病伴听力损失。本文报道了两名无关男性患者携带 AIFM1 突变（其中一个是新的），他们表现出不同的表型，包括进行性共济失调，部分患者用核黄素治疗后有所改善。

方法

对两名患者进行了三人体外全外显子组测序。采用 Sanger 测序进行验证和分离。诊断后，患者接受了长达 12 个月的 200mg 核黄素/天治疗。在治疗前、治疗 6 个月和 12 个月时，使用 ICARS 量表评估共济失调。

结果

患者 1 在 5 岁时表现为听神经病，随后出现进行性共济失调、蚓部萎缩和轴索神经病。患者 2 在 4.5 岁时表现为严重的肢体和软腭肌阵挛，随后出现共济失调、小脑萎缩、眼肌麻痹、感觉神经性听力损失、反射减弱和心肌病。在 AIFM1 基因中发现了两个有害的错义突变：位于 FAD 依赖的氧化还原酶结构域的 p.Met340Thr 突变和位于高度保守的 DNA 结合基序的新型 p.Thr141Ile 突变。经过 12 个月的治疗，患者 1 的共济失调评分下降了 39%，患者 2 的共济失调评分下降了 20%。

结论

AIFM1 突变导致儿童小脑性共济失调，在一些患者中，高剂量核黄素治疗可能部分有效。

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AIFM1 基因突变导致 X 连锁儿童小脑共济失调，对核黄素部分有反应。

Mutations in AIFM1 cause an X-linked childhood cerebellar ataxia partially responsive to riboflavin.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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