Aortic disease and cardiomyopathy in patients with a novel DNMT3A gene variant causing Tatton-Brown-Rahman syndrome.

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Dovile Zebrauskiene, Egle Sadauskiene, Justas Dapkunas, Visvaldas Kairys, Joris Balciunas, Aleksandras Konovalovas, Ruta Masiuliene, Gunda Petraityte, Nomeda Valeviciene, Mindaugas Mataciunas, Jurate Barysiene, Violeta Mikstiene, Migle Tomkuviene, Egle Preiksaitiene
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Abstract

Tatton-Brown-Rahman syndrome (TBRS) is a rare congenital genetic disorder caused by autosomal dominant pathogenic variants in the DNA methyltransferase DNMT3A gene. Typical TBRS clinical features are overgrowth, intellectual disability, and minor facial anomalies. However, since the syndrome was first described in 2014, a widening spectrum of abnormalities is being described. Cardiovascular abnormalities are less commonly reported but can be a major complication of the syndrome. This article describes a family of three individuals diagnosed with TBRS in adulthood and highlights the variable expression of cardiovascular features. A 34-year-old proband presented with progressive aortic dilatation, mitral valve (MV) regurgitation, left ventricular (LV) dilatation, and ventricular arrhythmias. The affected family members (mother and brother) were diagnosed with MV regurgitation, LV dilatation, and arrhythmias. Exome sequencing and computational protein analysis suggested that the novel familial DNMT3A mutation Ser775Tyr is located in the methyltransferase domain, however, distant from the active site or DNA-binding loops. Nevertheless, this bulky substitution may have a significant effect on DNMT3A protein structure, dynamics, and function. Analysis of peripheral blood cfDNA and transcriptome showed shortened mononucleosome fragments and altered gene expression in a number of genes related to cardiovascular health and of yet undescribed function, including several lncRNAs. This highlights the importance of epigenetic regulation by DNMT3A on cardiovascular system development and function. From the clinical perspective, we suggest that new patients diagnosed with congenital DNMT3A variants and TBRS require close examination and follow-up for aortic dilatation and valvular disease because these conditions can progress rapidly. Moreover, personalized treatments, based on the specific DNMT3A variants and the different pathways of their function loss, can be envisioned in the future.

新型 DNMT3A 基因变异导致 Tatton-Brown-Rahman 综合征患者的主动脉疾病和心肌病。
塔顿-布朗-拉赫曼综合征(TBRS)是一种罕见的先天性遗传疾病,由 DNA 甲基转移酶 DNMT3A 基因的常染色体显性致病变异引起。典型的 TBRS 临床特征是发育过度、智力障碍和轻微的面部畸形。然而,自 2014 年首次描述该综合征以来,描述的异常范围不断扩大。心血管异常较少报道,但可能是该综合征的主要并发症。本文描述了一个由三名成年后被诊断为TBRS的患者组成的家庭,并重点介绍了心血管特征的不同表现。一名 34 岁的疑似患者出现进行性主动脉扩张、二尖瓣反流、左心室扩张和室性心律失常。受影响的家庭成员(母亲和兄弟)被诊断为二尖瓣反流、左心室扩张和心律失常。外显子组测序和计算蛋白质分析表明,新型家族性 DNMT3A 突变 Ser775Tyr 位于甲基转移酶结构域,但远离活性位点或 DNA 结合环。尽管如此,这个大块取代可能会对 DNMT3A 蛋白的结构、动力学和功能产生重大影响。对外周血 cfDNA 和转录组的分析表明,单核小体片段缩短,与心血管健康相关的一些基因的基因表达发生了改变,这些基因的功能尚未被描述,其中包括几个 lncRNA。这凸显了 DNMT3A 的表观遗传调控对心血管系统发育和功能的重要性。从临床角度来看,我们建议新确诊的先天性 DNMT3A 变异和 TBRS 患者需要对主动脉扩张和瓣膜疾病进行密切检查和随访,因为这些疾病会迅速发展。此外,根据特定的 DNMT3A 变异及其功能缺失的不同途径,可以设想未来的个性化治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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