Beecroft Sarah J, Ayala Marcos, McGillivray George, Nanda Vikas, Agolini Emanuele, Novelli Antonio, Digilio Maria C, Dotta Andrea, Carrozzo Rosalba, Clayton Joshua, Gaffney Lydia, McLean Catriona A, Ng Jessica, Laing Nigel G, Matteson Paul, Millonig James, Ravenscroft Gianina
Faculty of Health and Medical Sciences, Centre of Medical Research, Harry Perkins Institute of Medical Research, University of Western Australia, Nedlands, Western Australia, Australia.
Center for Advanced Biotechnology and Medicine, Piscataway, New Jersey, USA.
Hum Mutat. 2021 May;42(5):506-519. doi: 10.1002/humu.24179. Epub 2021 Apr 1.
This study shows a causal association between ALDH1A2 variants and a novel, severe multiple congenital anomaly syndrome in humans that is neonatally lethal due to associated pulmonary hypoplasia and respiratory failure. In two families, exome sequencing identified compound heterozygous missense variants in ALDH1A2. ALDH1A2 is involved in the conversion of retinol (vitamin A) into retinoic acid (RA), which is an essential regulator of diaphragm and cardiovascular formation during embryogenesis. Reduced RA causes cardiovascular, diaphragmatic, and associated pulmonary defects in several animal models, matching the phenotype observed in our patients. In silico protein modeling showed probable impairment of ALDH1A2 for three of the four substitutions. In vitro studies show a reduction of RA. Few pathogenic variants in genes encoding components of the retinoic signaling pathway have been described to date, likely due to embryonic lethality. Thus, this study contributes significantly to knowledge of the role of this pathway in human diaphragm and cardiovascular development and disease. Some clinical features in our patients are also observed in Fryns syndrome (MIM# 229850), syndromic microphthalmia 9 (MIM# 601186), and DiGeorge syndrome (MIM# 188400). Patients with similar clinical features who are genetically undiagnosed should be tested for recessive ALDH1A2-deficient malformation syndrome.
本研究表明,ALDH1A2基因变异与一种新的、严重的人类多发性先天性畸形综合征之间存在因果关联,该综合征因相关的肺发育不全和呼吸衰竭在新生儿期致死。在两个家庭中,外显子组测序在ALDH1A2基因中鉴定出复合杂合错义变异。ALDH1A2参与视黄醇(维生素A)转化为视黄酸(RA)的过程,而视黄酸是胚胎发育过程中膈肌和心血管形成的重要调节因子。在几种动物模型中,视黄酸减少会导致心血管、膈肌及相关肺部缺陷,这与我们在患者中观察到的表型相符。计算机模拟蛋白质建模显示,四个替代位点中的三个可能会损害ALDH1A2的功能。体外研究表明视黄酸减少。迄今为止,很少有关于视黄酸信号通路编码成分基因的致病变异被描述,可能是由于胚胎致死性。因此,本研究对该信号通路在人类膈肌和心血管发育及疾病中的作用的认识有显著贡献。我们患者的一些临床特征也见于弗林斯综合征(MIM# 229850)、综合征性小眼症9(MIM# 601186)和迪乔治综合征(MIM# 188400)。对于临床特征相似但基因未确诊的患者,应检测是否患有隐性ALDH1A2缺陷畸形综合征。
