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精氨酸琥珀酸合成酶缺乏症:对可治疗的神经代谢疾病进行新生儿筛查的第一步。

Guanidinoacetate methyltransferase deficiency: first steps to newborn screening for a treatable neurometabolic disease.

机构信息

Division of Clinical and Metabolic Genetics, Department of Pediatrics, University of Toronto, Toronto, ON, Canada.

出版信息

Mol Genet Metab. 2012 Nov;107(3):433-7. doi: 10.1016/j.ymgme.2012.07.022. Epub 2012 Aug 3.

DOI:10.1016/j.ymgme.2012.07.022
PMID:23031365
Abstract

BACKGROUND

GAMT deficiency is an autosomal recessive disorder of creatine biosynthesis resulting in severe neurological complications in untreated patients. Currently available treatment is only successful to stop disease progression, but is not sufficient to reverse neurological complications occurring prior to diagnosis. Normal neurodevelopmental outcome in a patient, treated in the newborn period, highlights the importance of early diagnosis.

METHODS

Targeted mutation analysis (c.59G>C and c.327G>A) in the GAMT gene by the QIAxcel system and GAA measurement by a novel two-tier method were performed in 3000 anonymized newborn blood dot spot cards.

RESULTS

None of the targeted mutations were detected in any newborn. Two novel heterozygous variants (c.283_285dupGTC; p.Val95dup and c.278_283delinsCTCGATGCAC; p.Asp93AlafsX35) were identified by coincidence. Carrier frequency for these insertion/deletion types of GAMT mutations was 1/1475 in this small cohort of newborns. GAA levels were at or above the 99th percentile (3.12 μmol/l) in 4 newborns. Second-tier testing showed normal results for 4 newborns revealing 0.1% false positive rate. No GAMT mutations were identified in 4 of the newborns with elevated GAA levels in the first tier testing.

CONCLUSION

This is the first two-tier study to investigate carrier frequency of GAMT deficiency in the small cohort of newborn population to establish evidence base for the first steps toward newborn screening for this treatable neurometabolic disorder.

摘要

背景

GAMT 缺乏症是一种常染色体隐性遗传的肌酸生物合成障碍,未经治疗的患者会出现严重的神经并发症。目前的治疗方法仅能成功阻止疾病进展,但不足以逆转在诊断前发生的神经并发症。在新生儿期接受治疗的患者能获得正常的神经发育结局,这凸显了早期诊断的重要性。

方法

通过 QIAxcel 系统对 GAMT 基因进行靶向突变分析(c.59G>C 和 c.327G>A),并通过新型两阶段方法测量 GAA。在 3000 份匿名新生儿血斑卡中进行了这些检测。

结果

在任何新生儿中均未检测到靶向突变。通过偶然发现鉴定出两种新的杂合变异(c.283_285dupGTC;p.Val95dup 和 c.278_283delinsCTCGATGCAC;p.Asp93AlafsX35)。在这个新生儿小队列中,这些 GAMT 突变的插入/缺失类型的携带者频率为 1/1475。4 名新生儿的 GAA 水平在第 99 百分位或以上(3.12 μmol/L)。第二阶段检测显示 4 名新生儿的结果正常,假阳性率为 0.1%。在第一阶段检测中 GAA 水平升高的 4 名新生儿中未发现 GAMT 突变。

结论

这是首次在新生儿小队列中进行两阶段研究,以调查 GAMT 缺乏症的携带者频率,为该可治疗神经代谢疾病的新生儿筛查建立证据基础。

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