Susgun Seda, Demirel Mert, Yalcin Cakmakli Gul, Salman Baris, Oguz Kader K, Elibol Bulent, Ugur Iseri Sibel Aylin, Yapici Zuhal
Department of Genetics, Aziz Sancar Institute of Experimental Medicine, Istanbul University, Istanbul, Turkey.
Graduate School of Health Sciences, Istanbul University, Istanbul, Turkey.
Int J Neurosci. 2024 Oct;134(10):1040-1045. doi: 10.1080/00207454.2023.2208279. Epub 2023 May 4.
Beta-propeller protein-associated neurodegeneration (BPAN) is a rare X-linked dominant neurodegenerative disease, which is characterized by iron accumulation in the basal ganglia. BPAN is associated with pathogenic variation in , which has been reported almost exclusively in females most probably due to male lethality in the hemizygous state.
Whole exome sequencing (WES) and targeted deep sequencing were performed for a male with a clinical diagnosis of BPAN at the age of 37.
The novel frameshift variant in detected by WES was further analyzed with targeted resequencing to detect a mosaic variant with a level of 85.5% in the blood sample of the proband.
Although the main role of remains elusive, recent studies show that may contribute to neurodegeneration through defects in autophagy, iron storage and ferritin metabolism, mitochondria organization, and endoplasmic reticulum homeostasis. The extend of spatiotemporal haploinsufficiency of frameshifting variants caused by mosaicism in males may lead to variable clinical severity, which may be hard to elaborate clinically. Promising genetic analysis strategies using targeted deep sequencing may help determine the clinical outcome of somatic mosaicism in neurological disorders including BPAN. Additionally, we suggest that deep sequencing should be conducted in cerebrospinal fluid samples to provide more reliable results in terms of reflecting the mosaicism level in the brain for future studies.
β-螺旋桨蛋白相关神经退行性疾病(BPAN)是一种罕见的X连锁显性神经退行性疾病,其特征是基底神经节中铁蓄积。BPAN与致病变异相关,该变异几乎仅在女性中报道,很可能是由于半合子状态下男性致死。
对一名37岁临床诊断为BPAN的男性进行全外显子组测序(WES)和靶向深度测序。
通过WES检测到的新的移码变异,通过靶向重测序进一步分析,在先证者的血液样本中检测到一个嵌合变异,水平为85.5%。
尽管其主要作用仍不清楚,但最近的研究表明,它可能通过自噬、铁储存和铁蛋白代谢、线粒体组织和内质网稳态缺陷导致神经退行性变。男性嵌合导致的移码变异的时空单倍剂量不足程度可能导致临床严重程度各异,这在临床上可能难以阐述。使用靶向深度测序的有前景的基因分析策略可能有助于确定包括BPAN在内的神经系统疾病中体细胞嵌合的临床结果。此外,我们建议对脑脊液样本进行深度测序,以便在未来研究中更可靠地反映大脑中的嵌合水平。
