期刊
EUROPEAN JOURNAL OF NEUROLOGY
卷 29, 期 12, 页码 3556-3563出版社
WILEY
DOI: 10.1111/ene.15528
关键词
exome sequencing; protein homeostasis; SBMA; spinal-bulbar muscular atrophy; UBA1
资金
- Iran National Science Foundation [4005531]
This study reports the identification of UBA1 as a novel causative gene for SBMA. A missense mutation in UBA1 was found to be the possible cause of non-Kennedy SBMA in a pedigree. The study also discusses the contribution of UBA1 to the etiology of XL-SMA.
Background and purpose Spinal-bulbar muscular atrophy (SBMA) (Kennedy's disease) is a motor neuron disease. Kennedy's disease is nearly exclusively caused by mutations in the androgen receptor encoding gene (AR). The results of studies aimed at identification of the genetic cause of a disease that best approximates SBMA in a pedigree (four patients) without mutations in AR are reported. Methods Clinical investigations included thorough neurological and non-neurological examinations and testing. Genetic analysis was performed by exome sequencing using standard protocols. UBA1 mutations were modeled on the crystal structure of UBA1. Results The clinical features of the patients are described in detail. A missense mutation in UBA1 (c.T1499C; p.Ile500Thr) was identified as the probable cause of the non-Kennedy SBMA in the pedigree. Like AR, UBA1 is positioned on chromosome X. UBA1 is a highly conserved gene. It encodes ubiquitin-like modifier activating enzyme 1 (UBA1) which is the major E1 enzyme of the ubiquitin-proteasome system. Interestingly, UBA1 mutations can also cause infantile-onset X-linked spinal muscular atrophy (XL-SMA). The mutation identified here and the XL-SMA causative mutations were shown to affect amino acids positioned in the vicinity of UBA1's ATP binding site and to cause structural changes. Conclusion UBA1 was identified as a novel SBMA causative gene. The gene affects protein homeostasis which is one of most important components of the pathology of neurodegeneration. The contribution of this same gene to the etiology of XL-SMA is discussed.
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