Isolated methylmalonic acidemia in Mexico: Genotypic spectrum, report of two novel MMUT variants and a possible synergistic heterozygosity effect

IF 1.8 4区医学 Q3 GENETICS & HEREDITY

Molecular Genetics and Metabolism Reports Pub Date : 2024-10-16 DOI:10.1016/j.ymgmr.2024.101155

Cynthia Fernández-Lainez , Marcela Vela-Amieva , Miriam Reyna-Fabián , Liliana Fernández-Hernández , Sara Guillén-López , Lizbeth López-Mejía , Miguel Ángel Alcántara-Ortigoza , Ariadna González-del Angel , Rosa Itzel Carrillo-Nieto , Enrique Ortega-Valdez , Mauricio Rojas-Maruri , Cecilia Ridaura-Sanz

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引用次数: 0

Abstract

Isolated methylmalonic acidemia (iMMA) is a group of monogenic metabolic disorders affecting methylmalonate and cobalamin metabolism. Five iMMA-responsible genes have been described to date: MMUT (MIM *609058), MMAA (MIM *607481, MMAB (MIM *607568), MMADHC (MIM *611935), and MCEE (MIM *608419). Although iMMA is the most common form of organic acidemia reported in Mexico, its genotypic spectrum is still largely unknown. We performed a clinical exome analysis on 42 unrelated Mexican patients with iMMA. MMUT deficiency accounted for 73.8 % of all cases, followed by MMAA (14.2 %), MMAB (7.2 %), and MMADHC (2.4 %) deficiencies. One patient presented MMUT and MMAA double heterozygosity, which should be further experimentally confirmed to prove that synergistic heterozygosity could be another inheritance mechanism in iMMA. The most frequent MMUT genotype involved the Hispanic variant NM_000255.4:c. [322C > T];[322C > T] or p.[Arg108Cys];[Arg108Cys] (14.3 %). Two novel MMUT variants, NM_000255.4:c.589G > A or p.(Ala197Thr) and c.1476C > A or p.(Tyr492*), were identified in a deceased newborn presenting the neonatal-onset severe form of the disease. In silico protein modeling of the p.(Arg108Cys) and novel p.(Ala197Thr) MMUT variants suggested disruption of the substrate-binding and catalytic domains of the protein, respectively. This study expands the current knowledge on the molecular spectrum of iMMA in the Mexican population and reinforces the importance of genetic analysis in guiding clinical management.

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墨西哥的孤立甲基丙二酸血症：基因型谱、两种新型 MMUT 变异的报告以及可能的协同杂合效应

孤立性甲基丙二酸血症（iMMA）是一组影响甲基丙二酸和钴胺素代谢的单基因代谢性疾病。迄今已描述了五种 iMMA 基因：MMUT（MIM *609058）、MMAA（MIM *607481）、MMAB（MIM *607568）、MMADHC（MIM *611935）和 MCEE（MIM *608419）。尽管 iMMA 是墨西哥报道的最常见的有机酸血症，但其基因型谱在很大程度上仍不为人所知。我们对 42 名无关的墨西哥 iMMA 患者进行了临床外显子组分析。MMUT 缺乏症占所有病例的 73.8%，其次是 MMAA（14.2%）、MMAB（7.2%）和 MMADHC（2.4%）缺乏症。有一名患者出现 MMUT 和 MMAA 双杂合子，应进一步通过实验证实协同杂合子可能是 iMMA 的另一种遗传机制。最常见的 MMUT 基因型涉及西班牙变体 NM_000255.4:c。[322C > T];[322C > T] or p.[Arg108Cys];[Arg108Cys] (14.3 %)。在一名患有新生儿重症的已故新生儿身上发现了两个新的 MMUT 变体，NM_000255.4:c.589G >A或p.(Ala197Thr)和c.1476C >A或p.(Tyr492*)。对p.(Arg108Cys)和新型p.(Ala197Thr)MMUT变体的硅学蛋白质建模表明，它们分别破坏了蛋白质的底物结合域和催化域。这项研究拓展了目前对墨西哥人群中 iMMA 分子谱的了解，并加强了基因分析在指导临床治疗方面的重要性。

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来源期刊

Molecular Genetics and Metabolism Reports Biochemistry, Genetics and Molecular Biology-Endocrinology

CiteScore

4.00

自引率

5.30%

发文量

105

审稿时长

33 days

期刊介绍： Molecular Genetics and Metabolism Reports is an open access journal that publishes molecular and metabolic reports describing investigations that use the tools of biochemistry and molecular biology for studies of normal and diseased states. In addition to original research articles, sequence reports, brief communication reports and letters to the editor are considered.