A recurrent de novo CTBP1 mutation is associated with developmental delay, hypotonia, ataxia, and tooth enamel defects

Beck, David B.; Cho, Megan T.; Millan, Francisca; Yates, Carin; Hannibal, Mark C.; O’Connor, Bridget; Shinawi, Marwan; Connolly, Anne M.; Waggoner, Darrel; Halbach, Sara; Angle, Brad; Sanders, Victoria R.; Shen, Yufeng; Retterer, Kyle; Begtrup, Amber; Bai, Renkui; Chung, Wendy K.

doi:10.1007/s10048-016-0482-4

Cited by 29 publications

(26 citation statements)

References 27 publications

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“…Inspection of rare and novel heterozygous variants that were predicted to be damaging to protein function revealed a c.991C>T p.(Arg331Trp) missense change in CTBP1 (NM_001012614.1). Following the report of 4 patients sharing the identical heterozygous CTBP1 variant that arose de novo in each case, 8 Sanger sequencing with extracted blood DNA from our patient and her parents confirmed that the c.991C>T p.(Arg331Trp) variant had arisen de novo or 1 parent was low level mosaic ( figure, B ). The c.991C>T p.(Arg331Trp) variant was absent from our in-house exomes and external databases, affected a highly conserved residue, and was predicted to be deleterious by PolyPhen-2, SIFT, and Align GVGD ( figure, C ).…”

Section: Resultssupporting

confidence: 62%

“…All 4 previously reported patients presented with comparable phenotypes of hypotonia, ataxia, severe developmental delay, intellectual disability, and problems with weight gain. 8 Similarly, our patient had generally low muscle tone, developmental regression, severe intellectual disability, and was nonambulatory. Cerebellar atrophy was also noted in our patient and 2 reported patients.…”

Section: Discussionmentioning

confidence: 53%

“…The original description of 4 patients with a recurrent de novo CTBP1 variant did not report respiratory chain defects in skeletal muscle, although one patient was investigated for “pathogenic mitochondrial mutations”. 8 As yet, it is unclear whether mitochondrial dysfunction contributes to the pathogenesis of this disorder or is a secondary consequence. Therefore, future studies of mitochondrial function and morphology in tissue from affected patients could provide further insights into the pathologic mechanisms involved.…”

Section: Discussionmentioning

confidence: 99%

“…Using WES, we identified a recurrent pathogenic de novo heterozygous CTBP1 variant previously associated with an early-onset neurologic disorder. 8 We highlight the challenges of variant prioritization in a patient who was initially suspected to have an autosomal recessive mitochondrial disorder.…”

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confidence: 99%

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De novo CTBP1 variant is associated with decreased mitochondrial respiratory chain activities

et al. 2017

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Objective:To determine the genetic etiology of a young woman presenting an early-onset, progressive neurodegenerative disorder with evidence of decreased mitochondrial complex I and IV activities in skeletal muscle suggestive of a mitochondrial disorder.Methods:A case report including diagnostic workup, whole-exome sequencing of the affected patient, filtering, and prioritization of candidate variants assuming a suspected autosomal recessive mitochondrial disorder and segregation studies.Results:After excluding candidate variants for an autosomal recessive mitochondrial disorder, re-evaluation of rare and novel heterozygous variants identified a recently reported, recurrent pathogenic heterozygous CTBP1 missense change (c.991C>T, p.Arg331Trp), which was confirmed to have arisen de novo.Conclusions:We report the fifth known patient harboring a recurrent pathogenic de novo c.991C>T p.(Arg331Trp) CTBP1 variant, who was initially suspected to have an autosomal recessive mitochondrial disorder. Inheritance of suspected early-onset mitochondrial disease could wrongly be assumed to be autosomal recessive. Hence, this warrants continued re-evaluation of rare and novel heterozygous variants in patients with apparently unsolved suspected mitochondrial disease investigated using next-generation sequencing.

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Section: Resultssupporting

confidence: 62%

Section: Discussionmentioning

confidence: 53%

Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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De novo CTBP1 variant is associated with decreased mitochondrial respiratory chain activities

et al. 2017

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“…6,7 Additionally, WES has enabled the discovery of many new genotype-phenotype associations; for example, pathogenic variants in the TKT gene are found in individuals with short stature, developmental delay, and congenital heart defects; and pathogenic variants in the CTBP1 gene have been shown to cause developmental delay, hypotonia, ataxia, and tooth enamel defects. 8,9 Using WES in pediatric and adult populations, we previously demonstrated in a large clinical series an overall diagnostic yield of 28.8% with a range of 24% for singleton cases to 31% for trio-based analysis, which is comparable to other laboratories reporting yields of 22 to 26%. [10][11][12][13] Fetal specimens submitted for exome sequencing to investigate ultrasound anomalies comprise a unique phenotypic cohort.…”

Section: Introductionmentioning

confidence: 52%

Whole-exome sequencing on deceased fetuses with ultrasound anomalies: expanding our knowledge of genetic disease during fetal development

Yates¹,

Monaghan²,

Copenheaver³

et al. 2017

Genetics in Medicine

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129

135

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PurposeThe aim of this study was to determine the diagnostic yield of whole-exome sequencing (WES) in fetuses with ultrasound anomalies that resulted in fetal demise or pregnancy termination. The results were also utilized to aid in the identification of candidate genes for fetal development and to expand the clinical phenotype of known genetic conditions.MethodsWES was performed on specimens from 84 deceased fetuses. Data were analyzed and final results were classified into one of four categories: positive, possible, negative, and candidate gene only. WES analysis was predominantly performed in fetus-parent trios or quads (61%, n=52).ResultsOverall, 20% (n = 17) of cases were positive, 45% (n=38) were possible, 9% (n=7) had only candidate gene variants and 26% (n = 22) tested negative. The diagnostic yield for definitive findings for trio analysis was 24% (n = 11) compared to 14% (n = 4) for singletons. The most frequently reported ultrasound anomalies were central nervous system (37%, n = 31), hydrops/edema (36%, n = 30), and cardiovascular anomalies (31%, n = 26).ConclusionOur experience supports the use of WES to identify the molecular etiology of fetal ultrasound anomalies, to identify candidate genes involved in fetal development, and to expand our knowledge of the clinical phenotype of known genetic conditions.

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Genetic basis of mitochondrial diseases

Gusic

2021

FEBS Letters

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Mitochondrial disorders are monogenic disorders characterized by a defect in oxidative phosphorylation and caused by pathogenic variants in one of over 340 different genes. The implementation of whole exome sequencing has led to a revolution in their diagnosis, duplicated the number of associated disease genes, and significantly increased the diagnosed fraction. However, the genetic etiology of a substantial fraction of patients exhibiting mitochondrial disorders remains unknown, highlighting limitations in variant detection and interpretation, which calls for improved computational and DNA sequencing methods, as well as the addition of OMICS tools. More intriguingly, this also suggests that some pathogenic variants lie outside of the proteincoding genes and that the mechanisms beyond the Mendelian inheritance and the mtDNA are of relevance. This review covers the current status of the genetic basis of mitochondrial diseases, discusses current challenges and perspectives, and explores the contribution of factors beyond the protein-coding regions and monogenic inheritance in the expansion of the genetic spectrum of disease.

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A recurrent de novo CTBP1 mutation is associated with developmental delay, hypotonia, ataxia, and tooth enamel defects

Cited by 29 publications

References 27 publications

De novo CTBP1 variant is associated with decreased mitochondrial respiratory chain activities

De novo CTBP1 variant is associated with decreased mitochondrial respiratory chain activities

Whole-exome sequencing on deceased fetuses with ultrasound anomalies: expanding our knowledge of genetic disease during fetal development

Genetic basis of mitochondrial diseases

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