TBCD may be a causal gene in progressive neurodegenerative encephalopathy with atypical infantile spinal muscular atrophy

Spinal muscular atrophy (SMA) is an autosomal recessive neurodegenerative disorder caused by survival motor neuron gene mutations. Variant forms of SMA accompanied by additional clinical presentations have been classified as atypical SMA and are thought to be caused by variants in as yet unidentifie...

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Bibliographic Details
Published in:Journal of human genetics 2017-04, Vol.62 (4), p.473-480
Main Authors: Ikeda, Toshio, Nakahara, Akihiko, Nagano, Rie, Utoyama, Maiko, Obara, Megumi, Moritake, Hiroshi, Uechi, Tamayo, Mitsui, Jun, Ishiura, Hiroyuki, Yoshimura, Jun, Doi, Koichiro, Kenmochi, Naoya, Morishita, Shinichi, Nishino, Ichizo, Tsuji, Shoji, Nunoi, Hiroyuki
Format: Article
Language:English
Subjects:
Atrophy
Brain Diseases - genetics
Brain Diseases - physiopathology
Central nervous system
Child
Chromosome 17
Encephalopathy
Female
Genetic Association Studies
Genetic Predisposition to Disease
Hereditary diseases
Homology
Homozygote
Humans
Microtubule-Associated Proteins - genetics
Motor neurons
Motor Neurons - pathology
Mutation, Missense
Neurodegenerative diseases
Neuromuscular diseases
Pedigree
Proteins - genetics
Spinal Muscular Atrophies of Childhood - genetics
Spinal Muscular Atrophies of Childhood - physiopathology
Spinal muscular atrophy
Tubulin
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Summary:Spinal muscular atrophy (SMA) is an autosomal recessive neurodegenerative disorder caused by survival motor neuron gene mutations. Variant forms of SMA accompanied by additional clinical presentations have been classified as atypical SMA and are thought to be caused by variants in as yet unidentified causative genes. Here, we presented the clinical findings of two siblings with an SMA variant followed by progressive cerebral atrophy, and the results of whole-exome sequencing analyses of the family quartet that was performed to identify potential causative variants. We identified two candidate homozygous missense variants, R942Q in the tubulin-folding cofactor D (TBCD) gene and H250Q in the bromo-adjacent homology domain and coiled-coil containing 1 (BAHCC1) gene, located on chromosome 17q25.3 with an interval of 1.4 Mbp. The in silico analysis of both variants suggested that TBCD rather than BAHCC1 was likely the pathogenic gene (TBCD sensitivity, 0.68; specificity, 0.97; BAHCC1 sensitivity, 1.00; specificity, 0.00). Thus, our results show that TBCD is a likely novel candidate gene for atypical SMA with progressive cerebral atrophy. TBCD is predicted to have important functions on tubulin integrity in motor neurons as well as in the central nervous system.
ISSN:1434-5161
1435-232X
DOI:10.1038/jhg.2016.149