Atwal Paldeep S, Donti Taraka R, Cardon Aaron L, Bacino C A, Sun Qin, Emrick L, Reid Sutton V, Elsea Sarah H
Department of Molecular & Human Genetics, Baylor College of Medicine, Houston, TX, USA.
Section of Pediatric Neurology and Neuroscience, Baylor College of Medicine, Houston, TX, USA.
Mol Genet Metab. 2015 Jun-Jul;115(2-3):91-4. doi: 10.1016/j.ymgme.2015.04.008. Epub 2015 May 2.
Aromatic L-amino acid decarboxylase (AADC) deficiency is an inborn error of metabolism affecting the biosynthesis of serotonin, dopamine, and catecholamines. We report a case of AADC deficiency that was detected using the Global MAPS platform. This is a novel platform that allows for parallel clinical testing of hundreds of metabolites in a single plasma specimen. It uses a state-of-the-art mass spectrometry platform, and the resulting spectra are compared against a library of ~2500 metabolites. Our patient is now a 4 year old boy initially seen at 11 months of age for developmental delay and hypotonia. Multiple tests had not yielded a diagnosis until exome sequencing revealed compound heterozygous variants of uncertain significance (VUS), c.286G>A (p.G96R) and c.260C>T (p.P87L) in the DDC gene, causal for AADC deficiency. CSF neurotransmitter analysis confirmed the diagnosis with elevated 3-methoxytyrosine (3-O-methyldopa). Metabolomic profiling was performed on plasma and revealed marked elevation in 3-methoxytyrosine (Z-score +6.1) consistent with the diagnosis of AADC deficiency. These results demonstrate that the Global MAPS platform is able to diagnose AADC deficiency from plasma. In summary, we report a novel and less invasive approach to diagnose AADC deficiency using plasma metabolomic profiling.
芳香族 L-氨基酸脱羧酶(AADC)缺乏症是一种影响血清素、多巴胺和儿茶酚胺生物合成的先天性代谢缺陷。我们报告了一例使用全球代谢组分析平台(Global MAPS)检测到的 AADC 缺乏症病例。这是一个新颖的平台,可在单个血浆样本中对数百种代谢物进行并行临床检测。它使用了最先进的质谱平台,并将所得光谱与约 2500 种代谢物的库进行比较。我们的患者是一名 4 岁男孩,最初在 11 个月大时因发育迟缓及肌张力减退前来就诊。在全外显子测序揭示 DDC 基因中具有不确定意义的复合杂合变异(VUS),即 c.286G>A(p.G96R)和 c.260C>T(p.P87L),这是 AADC 缺乏症的病因之前,多项检查均未得出诊断结果。脑脊液神经递质分析通过 3-甲氧基酪氨酸(3-O-甲基多巴)升高证实了诊断。对血浆进行了代谢组分析,结果显示 3-甲氧基酪氨酸显著升高(Z 评分 +6.1),与 AADC 缺乏症的诊断相符。这些结果表明,全球代谢组分析平台能够从血浆中诊断 AADC 缺乏症。总之,我们报告了一种使用血浆代谢组分析来诊断 AADC 缺乏症的新颖且侵入性较小的方法。
