Intronic pentanucleotide TTTCA repeat insertion in the SAMD12 gene causes familial cortical myoclonic tremor with epilepsy type 1

Cen, Zhidong; Jiang, Zhengwen; Chen, You; Zheng, Xiaosheng; Xie, Fei; Yang, Xiaodong; Lu, Xiaoyong; Ouyang, Zhiyuan; Wu, Hongwei; Chen, Si; Yin, Houmin; Qiu, Xia; Wang, Shuang; Ding, Meiping; Tang, Ye-Lei; Yu, Feng; Li, Caihua; Wang, Tao; Ishiura, Hiroyuki; Tsuji, Shoji; Jiao, Chuan; Liu, Chunyu; Xiao, Jianfeng; Luo, Wei

doi:10.1093/brain/awy160

Cited by 72 publications

(84 citation statements)

References 32 publications

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“…Long‐read sequencing might be another choice instead of southern blot analysis. Additionally, as pointed out previously , it was found that TTTCA insertions may, or may not, be accompanied by abnormal TTTTA expansions. In our patients, TTTTA expansions were not detected in family 3 holding the mutation in RAPGEF2 .…”

Section: Discussionsupporting

confidence: 64%

“…The pentanucleotide repeats showed intergenerational instability and inversely correlated with age at onset of myoclonic tremor and epilepsy in our patient families, just as in spinocerebellar ataxia 31 (SCA31) . A founder effect between FCMTE1 pedigrees across China and Japan was indicated as a core haplotype containing the (TTTCA)n insertion was found to be shared among them . It should be noted that there is a chance that some repeat expansions could be missed by the current RP‐PCR strategy, e.g.…”

Section: Discussionmentioning

confidence: 67%

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TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

Lei

Liu

Lü

et al. 2018

Euro J of Neurology

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Background and purpose The aim was to investigate whether abnormal TTTTA and TTTCA repeat expansions in introns of SAMD12, TNRC6A and RAPGEF2 are involved in the pathogenesis of familial cortical myoclonic tremor with epilepsy (FCMTE). Methods Five families diagnosed with FCMTE were included in the current genetic analysis. Whole‐exome sequencing was performed in selected patients of each family. TTTTA and TTTCA expansions were examined by repeat‐primed polymerase chain reaction. The clinical features of FCMTE were elicited as defined by the common genetic mechanism of 14 patients. Results Abnormal TTTCA expansion was identified and co‐segregated in all five FCMTE families, four inserted in SAMD12 and one in RAPGEF2. The insertion of expanded TTTCA was not found in 116 control alleles. TTTTA expansion in SAMD12 was detected in 90.9% (10/11) of patients or mutation carriers; TTTTA expansion in RAPGEF2 was not found. The onset age of myoclonic tremor was 27.4 ± 5.9 (19–37) and epilepsy usually presented around age 34. Focal and generalized seizures were witnessed with various origins recorded by electroencephalogram. Cognitive deficits were not common within the first 3 years after epilepsy onset. Emotional instability was reported by most patients. No patients showed any cerebellar deficits. Valproate added with clonazepam is effective in controlling seizures but cannot guarantee a complete remission of tremor. Repeat length showed intergenerational instability and was inversely correlated with age at onset of myoclonic tremor and epilepsy. Conclusions TTTCA expansion insertion is associated with FCMTE in Chinese families. The homogenous genetic mechanism allowed for a higher precision of FCMTE description.

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Section: Discussionsupporting

confidence: 64%

Section: Discussionmentioning

confidence: 67%

TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

Lei

Liu

Lü

et al. 2018

Euro J of Neurology

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“…In this type of dynamic mutation, the complex repeat without the insertion is not pathological (Seixas et al, 2017). In addition to SCA37, this type of mutation underlies SCA31 (MIM# 117210) and benign adult familial myoclonic epilepsy (BAFME1; MIM# 601068, 6 and 7) (Cen et al, 2018;Ishiura et al, 2018;Sato et al, 2009;Seixas et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…The pentanucleotide repeat associated with SCA37 is located in the middle poly-A of an AluJb element (Seixas et al, 2017). Several other disease-causing repeats are in middle or 3 ′ -end poly-A regions of Alu elements, such as the repeat expansions responsible for FRDA, DM2, and SCA10, as well as the pentanucleotide repeat insertions associated with SCA31 and two types of BAFME (Cen et al, 2018;Chauhan, Dash, Grover, Rajamani, & Mukerji, 2002;Clark et al, 2004;Ishiura et al, 2018;Kurosaki et al, 2012;Kurosaki, Matsuura, Ohno, & Ueda, 2009;Montermini et al, 1997;Sato et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Mutational mechanism for DAB1 (ATTTC) _n insertion in SCA37: ATTTT repeat lengthening and nucleotide substitution

et al. 2019

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Dynamic mutations by microsatellite instability are the molecular basis of a growing number of neuromuscular and neurodegenerative diseases. Repetitive stretches in the human genome may drive pathogenicity, either by expansion above a given threshold, or by insertion of abnormal tracts in nonpathogenic polymorphic repetitive regions, as is the case in spinocerebellar ataxia type 37 (SCA37). We have recently established that this neurodegenerative disease is caused by an (ATTTC)n insertion within an (ATTTT)n in a noncoding region of DAB1. We now investigated the mutational mechanism that originated the (ATTTC)n insertion within an ancestral (ATTTT)n. Approximately 3% of nonpathogenic (ATTTT)n alleles are interspersed by AT‐rich motifs, contrarily to mutant alleles that are composed of pure (ATTTT)n and (ATTTC)n stretches. Haplotype studies in unaffected chromosomes suggested that the primary mutational mechanism, leading to the (ATTTC)n insertion, was likely one or more T>C substitutions in an (ATTTT)n pure allele of approximately 200 repeats. Then, the (ATTTC)n expanded in size, originating a deleterious allele in DAB1 that leads to SCA37. This is likely the mutational mechanism in three similar (TTTCA)n insertions responsible for familial myoclonic epilepsy. Because (ATTTT)n tracts are frequent in the human genome, many loci could be at risk for this mutational process.

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“…This (TTTGA) n insertion was not detected using RP‐PCR or Sanger sequencing in 2 other FCMTE pedigrees without (TTTCA) n insertion. No (TTTGA) n insertion was detected in 238 Chinese controls using RP‐PCR or Sanger sequencing, although 24 controls with (TTTTA) n expansion were detected . Thus, similar to the previously reported (TTTCA) n insertion, the repeat expansion structure was speculated to be as follows: The (TTTGA) n insertion occurred between the (TTTTA) n expansion and its 3’ adjacent Alu element (Fig.…”

Section: Resultsmentioning

confidence: 97%

Intronic (TTTGA)_n insertion in SAMD12 also causes familial cortical myoclonic tremor with epilepsy

et al. 2019

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Background Intronic (TTTCA)n insertions in the SAMD12, TNRC6A, and RAPGEF2 genes have been identified as causes of familial cortical myoclonic tremor with epilepsy. Objective To identify the cause of familial cortical myoclonic tremor with epilepsy pedigrees without (TTTCA)n insertions in SAMD12, TNRC6A, and RAPGEF2. Methods Repeat‐primed polymerase chain reaction, long‐range polymerase chain reaction, and Sanger sequencing were performed to identify the existence of a novel (TTTGA)n insertion. Targeted long‐read sequencing was performed to confirm the accurate structure of the (TTTGA)n insertion. Results We identified a novel expanded intronic (TTTGA)n insertion at the same site as the previously reported (TTTCA)n insertion in SAMD12. This insertion cosegregated with familial cortical myoclonic tremor with epilepsy in 1 Chinese pedigree with no (TTTCA)n insertion. In the targeted long‐read sequencing of 2 patients and 1 asymptomatic carrier in this pedigree, with 1 previously reported (TTTCA)n‐insertion–carrying patient as a positive control, a respective total of 302, 159, 207, and 50 on‐target subreads (predicated accuracy: ≥90%) spanning the target repeat expansion region were generated. These sequencing data revealed the accurate repeat expansion structures as (TTTTA)114‐123(TTTGA)108‐116 in the pedigree and (TTTTA)38(TTTCA)479 in (TTTCA)n‐insertion–carrying patient. Conclusion The targeted long‐read sequencing helped us to elucidate the accurate structures of the (TTTGA)n and (TTTCA)n insertions. Our finding offers a novel possible cause for familial cortical myoclonic tremor with epilepsy and might shed light on the identification of genetic causes of this disease in pedigrees with no detected (TTTCA)n insertion in the reported causative genes. © 2019 International Parkinson and Movement Disorder Society

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Intronic pentanucleotide TTTCA repeat insertion in the SAMD12 gene causes familial cortical myoclonic tremor with epilepsy type 1

Cited by 72 publications

References 32 publications

TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

Mutational mechanism for DAB1 (ATTTC) _n insertion in SCA37: ATTTT repeat lengthening and nucleotide substitution

Intronic (TTTGA)_n insertion in SAMD12 also causes familial cortical myoclonic tremor with epilepsy

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Intronic pentanucleotide TTTCA repeat insertion in the SAMD12 gene causes familial cortical myoclonic tremor with epilepsy type 1

Cited by 72 publications

References 32 publications

TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

TTTCA repeat expansion causes familial cortical myoclonic tremor with epilepsy

Mutational mechanism for DAB1 (ATTTC) n insertion in SCA37: ATTTT repeat lengthening and nucleotide substitution

Intronic (TTTGA)n insertion in SAMD12 also causes familial cortical myoclonic tremor with epilepsy

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Mutational mechanism for DAB1 (ATTTC) _n insertion in SCA37: ATTTT repeat lengthening and nucleotide substitution

Intronic (TTTGA)_n insertion in SAMD12 also causes familial cortical myoclonic tremor with epilepsy