肌张力障碍
生物
移码突变
错义突变
复合杂合度
壳核
基底神经节
表型
遗传学
神经科学
基因
中枢神经系统
作者
Heidy Baide‐Mairena,Paula Gaudó,Laura Martí‐Sánchez,Sonia Emperador,Ángel Sánchez‐Montáñez,Olga Alonso-Luengo,Marta Correa‐Vela,Anna Marcé‐Grau,Juan Darío Ortigoza‐Escobar,Rafael Artuch,Élida Vázquez,Mireia del Toro,Nuria Garrido-Pérez,Eduardo Ruiz‐Pesini,Julio Montoya,M. Pilar Bayona‐Bafaluy,Belén Pérez‐Dueñas
标识
DOI:10.1016/j.ymgme.2019.01.001
摘要
To perform a deep phenotype characterisation in a pedigree of 3 siblings with Leigh syndrome and compound heterozygous NDUFAF6 mutations. A multi-gene panel of childhood-onset basal ganglia neurodegeneration inherited conditions was analysed followed by functional studies in fibroblasts. Three siblings developed gait dystonia in infancy followed by rapid progression to generalised dystonia and psychomotor regression. Brain magnetic resonance showed symmetric and bilateral cytotoxic lesions in the putamen and proliferation of the lenticular-striate arteries, latter spreading to the caudate and progressing to cavitation and volume loss. We identified a frameshift novel change (c.554_558delTTCTT; p.Tyr187AsnfsTer65) and a pathogenic missense change (c.371T>C; p.Ile124Thr) in the NDUFAF6 gene, which segregated with an autosomal recessive inheritance within the family. Patient mutations were associated with the absence of the NDUFAF6 protein and reduced activity and assembly of mature complex I in fibroblasts. By functional complementation assay, the mutant phenotype was rescued by the canonical version of the NDUFAF6. A literature review of 14 NDUFAF6 patients showed a consistent phenotype of an early childhood insidious onset neurological regression with prominent dystonia associated with basal ganglia degeneration and long survival. NDUFAF6-related Leigh syndrome is a relevant cause of childhood onset dystonia and isolated bilateral striatal necrosis. By genetic complementation, we could demonstrate the pathogenicity of novel genetic variants in NDUFAF6.
科研通智能强力驱动
Strongly Powered by AbleSci AI