Mu Anfeng, Hira Asuka, Matsuo Keitaro, Takata Minoru
Laboratory of DNA Damage Signaling, Department of Late Effects Studies, Radiation Biology Center, Graduate School of Biostudies, Kyoto University.
Division of Cancer Epidemiology and Prevention, Aichi Cancer Center Research Institute.
Rinsho Ketsueki. 2021;62(6):547-553. doi: 10.11406/rinketsu.62.547.
We have recently described the identification of a novel inherited bone marrow failure syndrome. The first set of patients was diagnosed through the exome analysis of cells from Japanese patients with hypoplastic anemia, which have been deposited to the JCRB cell bank for quite some time previously. Originally, these cases were diagnosed with a novel disorder based on increased levels of sister chromatid exchanges in lymphocytes; however, causative genes were clarified only after applying the recently developed next-generation sequencing technology. Aldehyde degradation deficiency syndrome (ADDS) is caused by combined defects in two genes, ADH5 and ALDH2, which are both critical for degrading endogenously generated formaldehyde. Formaldehyde is highly reactive and toxic to biological molecules including DNA, and its endogenous generation in the absence of the degradation system results in DNA damage that overwhelms the DNA repair capacity, leading to the development of BMF with loss of hematopoietic stem cells and progression to MDS/leukemia. In this short review, we would like to summarize what is known today about ADDS for a wide readership of hematology clinicians in Japan.
我们最近描述了一种新型遗传性骨髓衰竭综合征的鉴定。首批患者是通过对日本再生障碍性贫血患者的细胞进行外显子组分析诊断出来的,这些细胞此前已在日本细胞库(JCRB cell bank)中保存了相当长一段时间。最初,这些病例是基于淋巴细胞中姐妹染色单体交换水平的升高而被诊断为一种新型疾病;然而,致病基因直到应用最近开发的下一代测序技术后才得以明确。醛降解缺陷综合征(ADDS)是由ADH5和ALDH2这两个基因的联合缺陷引起的,这两个基因对于降解内源性产生的甲醛都至关重要。甲醛具有高度反应性,对包括DNA在内的生物分子有毒,在缺乏降解系统的情况下其内源性产生会导致DNA损伤,超过DNA修复能力,从而导致骨髓衰竭(BMF)的发生,伴有造血干细胞丢失并进展为骨髓增生异常综合征/白血病。在这篇简短的综述中,我们想为日本广大血液学临床医生读者总结一下目前关于ADDS的已知情况。
