Molecular characterization, clinical phenotype, and neurological outcome of twelve Palestinian children with beta-ketothiolase deficiency: report of two novel variants in the ACAT1 gene.

IF 2 4区医学 Q3 GENETICS & HEREDITY

BMC Medical Genomics Pub Date : 2025-07-01 DOI:10.1186/s12920-025-02175-8

Imad M Dweikat, Hamza A Abdul-Hafez, Alaa Zayed, Moien Kanaan, Hanin Kasem, Rami Bzour

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引用次数: 0

Abstract

Background: Beta-ketothiolase deficiency (mitochondrial acetoacetyl-CoA thiolase, T2) deficiency (OMIM #203750, *607809) is an autosomal recessive disorder of isoleucine catabolism and ketone body utilization. It is caused by mutations in the ACAT1 gene and characterized by intermittent ketoacidosis episodes triggered by ketogenic stresses, with no clinical symptoms between the episodes. Neurological complications, particularly extrapyramidal signs may occur as sequelae of the ketoacidosis episodes but may also occur without or before any apparent metabolic crisis. T2 deficiency is characterized by the accumulation of isoleucine metabolites, 2methylacetoacetate, 2-methyl-3-hydroxybutyrate, and tiglylglycine, detected in urine organic acids and blood acylcarnitines with or without hypoglycemia.

Methods: This study presents data from twelve patients with T2 deficiency, diagnosed between 7 months and 22 months of age at two tertiary care centers in Palestine. The clinical, biochemical, molecular genetic data, and neurological outcomes are reviewed.

Results: We report on twelve patients (6 females and 6 males) from eight families in four different regions of the West Bank and Gaza Strip. All patients were offspring of consanguineous marriages. Ketoacidotic episodes were the predominant manifestations in all patients, and each episode was triggered by either acute gastroenteritis or upper respiratory infections. One patient initially presented with hypotonia and psychomotor delay, later developing a ketoacidotic episode a few months afterward. The characteristic laboratory finding in all patients was the increased urinary excretion of 2-methyl-3-hydroxybutyrate and tiglylglycine. Ten of the twelve patients had favorable outcomes, while two unfortunately passed away at the time of the study. Molecular genetic analysis of the ACAT1 gene was conducted on nine patients from six families, revealing four different variants, two of which were novel. Additionally, a founder mutation was identified in six patients from three families.

Conclusions: The study underscores the critical role of genetic research in unraveling the complexities of beta-ketothiolase deficiency and related disorders. By identifying haplotype blocks, founder mutations, and novel pathogenic variants, researchers can significantly improve diagnostic precision, enhance genetic counseling, and lay the groundwork for developing targeted therapies. We identified two novel variants and a founder mutation, thereby broadening the genetic spectrum of this rare disease.

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12名巴勒斯坦儿童β -酮硫酶缺乏症的分子特征、临床表型和神经预后：ACAT1基因的两种新变体的报告

背景：β -酮硫酶缺乏症（线粒体乙酰乙酰辅酶a硫酶，T2）缺乏症（OMIM #203750, *607809）是一种异亮氨酸分解代谢和酮体利用的常染色体隐性遗传病。它是由ACAT1基因突变引起的，其特征是由生酮应激触发的间歇性酮症酸中毒发作，发作之间没有临床症状。神经系统并发症，特别是锥体外系症状可作为酮症酸中毒发作的后遗症，但也可能在没有明显代谢危象或之前发生。T2缺乏的特征是异亮氨酸代谢物、2-甲基乙酰乙酸酯、2-甲基-3-羟基丁酸酯和替甘氨酸的积累，在尿有机酸和血酰基肉碱中检测到，伴有或不伴有低血糖。方法：本研究提供了12例T2缺乏症患者的数据，这些患者在巴勒斯坦的两个三级保健中心诊断为7个月至22个月大。本文回顾了临床、生化、分子遗传学数据和神经学结果。结果：我们报告了来自西岸和加沙地带四个不同地区的八个家庭的12名患者（6名女性和6名男性）。所有病人都是近亲婚姻的后代。酮症酸中毒发作是所有患者的主要表现，每次发作均由急性胃肠炎或上呼吸道感染引发。一名患者最初表现为张力低下和精神运动迟缓，几个月后出现酮症酸中毒发作。所有患者的特征性实验室发现是尿中2-甲基-3-羟基丁酸和替基甘氨酸排泄增加。12名患者中有10名预后良好，而2名不幸在研究期间去世。对来自6个家族的9名患者进行了ACAT1基因的分子遗传分析，发现了4种不同的变异，其中2种是新发现的。此外，在来自三个家庭的六名患者中发现了一个创始突变。结论：该研究强调了基因研究在揭示β -酮硫酶缺乏症和相关疾病的复杂性方面的关键作用。通过识别单倍型块、创始突变和新的致病变异，研究人员可以显著提高诊断精度，加强遗传咨询，并为开发靶向治疗奠定基础。我们确定了两个新的变异和一个创始突变，从而扩大了这种罕见疾病的遗传谱。

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来源期刊

BMC Medical Genomics 医学-遗传学

CiteScore

3.90

自引率

0.00%

发文量

243

审稿时长

3.5 months

期刊介绍： BMC Medical Genomics is an open access journal publishing original peer-reviewed research articles in all aspects of functional genomics, genome structure, genome-scale population genetics, epigenomics, proteomics, systems analysis, and pharmacogenomics in relation to human health and disease.