ME2 Deficiency Is Associated With Recessive Neurodevelopmental Disorder.

IF 2.9 3区 医学 Q2 GENETICS & HEREDITY Clinical Genetics Pub Date : 2024-10-14 DOI:10.1111/cge.14632
Naif A M Almontashiri, Essa Alharby, Mohammed Saleh, Mohamed Abu-Farha, Ali Alasmari, Marinella Gebbia, Charlotte Hiesl, Roy W A Peake, Sami Samir Amr, Eckhard Boles, Frederick P Roth, Jehad Abubaker
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Abstract

Malate is an important dicarboxylic acid produced from fumarate in the tricarboxylic acid cycle. Deficiencies of fumarate hydrolase (FH) and malate dehydrogenase (MDH), responsible for malate formation and metabolism, respectively, are known to cause recessive forms of neurodevelopmental disorders (NDDs). The malic enzyme isoforms, malic enzyme 1 (ME1) and 2 (ME2), are required for the conversion of malate to pyruvate. To date, there have been no reports linking deficiency of either malic enzyme isoforms to any Mendelian disease in humans. We report a patient presenting with NDD, subtle dysmorphic features, resolved dilated cardiomyopathy, and mild blood lactate elevation. Whole exome sequencing (WES) revealed a homozygous frameshift variant (c.1379_1380delTT, p.Phe460fs*22) in the malic enzyme 2 (ME2) gene resulting in truncated and unstable ME2 protein in vitro. Subsequent deletion of the yeast ortholog of human ME2 (hME2) resulted in growth arrest, which was rescued by overexpression of hME2, strongly supporting an important role of ME2 in mitochondrial function. Our results also support the pathogenicity and candidacy of the ME2 gene and variant in association with NDD. To our knowledge, this is the first report of a Mendelian human disease resulting from a biallelic variant in the ME encoding gene. Future studies are warranted to confirm ME2-associated recessive NDD.

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ME2缺陷与隐性神经发育障碍有关
苹果酸是一种重要的二羧酸,由富马酸在三羧酸循环中产生。已知富马酸水解酶(FH)和苹果酸脱氢酶(MDH)分别负责苹果酸的形成和代谢,它们的缺乏可导致隐性神经发育障碍(NDDs)。苹果酸酶异构体--苹果酸酶 1(ME1)和 2(ME2)需要将苹果酸转化为丙酮酸。迄今为止,还没有任何报道称苹果酸酶同工酶的缺乏与人类的任何孟德尔疾病有关。我们报告了一名患有 NDD、细微畸形特征、扩张型心肌病和轻度血乳酸升高的患者。全外显子组测序(WES)发现苹果酸酶 2(ME2)基因中存在一个同基因框移变异(c.1379_1380delTT,p.Phe460fs*22),导致体外的 ME2 蛋白截短且不稳定。随后删除人 ME2 的酵母直向同源物(hME2)会导致生长停滞,而过量表达 hME2 则可挽救生长停滞,这有力地证明了 ME2 在线粒体功能中的重要作用。我们的研究结果还支持 ME2 基因和变异体与 NDD 相关的致病性和候选性。据我们所知,这是首次报道因 ME 编码基因的双倍性变异而导致的孟德尔人类疾病。今后有必要开展研究,以确认与 ME2 相关的隐性 NDD。
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来源期刊
Clinical Genetics
Clinical Genetics 医学-遗传学
CiteScore
6.50
自引率
0.00%
发文量
175
审稿时长
3-8 weeks
期刊介绍: Clinical Genetics links research to the clinic, translating advances in our understanding of the molecular basis of genetic disease for the practising clinical geneticist. The journal publishes high quality research papers, short reports, reviews and mini-reviews that connect medical genetics research with clinical practice. Topics of particular interest are: • Linking genetic variations to disease • Genome rearrangements and disease • Epigenetics and disease • The translation of genotype to phenotype • Genetics of complex disease • Management/intervention of genetic diseases • Novel therapies for genetic diseases • Developmental biology, as it relates to clinical genetics • Social science research on the psychological and behavioural aspects of living with or being at risk of genetic disease
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