Quantitative sequence analysis of<i>FBN1</i>premature termination codons provides evidence for incomplete NMD in leukocytes

Magyar, I; Colman, Dvora; Arnold, Eliane; Baumgartner, Daniela; Fokstuen, Siv; Addor, Marie‐Claude; Berger, Wolfgang; Carrel, Thierry; Steinmann, Beat; Mátyás, Gábor

doi:10.1002/humu.21058

Cited by 24 publications

(20 citation statements)

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“…Despite the semi-quantitative nature of this method, our results are similar to those obtained by other groups examining mutated alleles of several different genes [42,43]. The reduction of the level of premature stop codon-containing transcripts is partially attributable to the mechanism of nonsense-mediated mRNA-decay, an evolutionarily conserved mechanism distinguishing normal from premature termination codons on the basis of their location with respect to exon-exon junctions, and targeting the latter for degradation [44].…”

Section: Discussionsupporting

confidence: 89%

High prevalence of germline STK11mutations in Hungarian Peutz-Jeghers Syndrome patients

et al. 2010

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BackgroundPeutz-Jeghers syndrome (PJS) is a rare autosomal dominantly inherited disease characterized by gastrointestinal hamartomatous polyposis and mucocutaneous pigmentation. The genetic predisposition for PJS has been shown to be associated with germline mutations in the STK11/LKB1 tumor suppressor gene. The aim of the present study was to characterize Hungarian PJS patients with respect to germline mutation in STK11/LKB1 and their association to disease phenotype.MethodsMutation screening of 21 patients from 13 PJS families were performed using direct DNA sequencing and multiplex ligation-dependent probe amplification (MLPA). Comparative semi-quantitative sequencing was applied to investigate the mRNA-level effects of nonsense and splice-affecting mutations.ResultsThirteen different pathogenic mutations in STK11, including a high frequency of large genomic deletions (38%, 5/13), were identified in the 13 unrelated families studied. One of these deletions also affects two neighboring genes (SBNO2 and GPX4), located upstream of STK11, with a possible modifier effect. The majority of the point mutations (88%, 7/8) can be considered novel. Quantification of the STK11 transcript at the mRNA-level revealed that the expression of alleles carrying a nonsense or frameshift mutation was reduced to 30-70% of that of the wild type allele. Mutations affecting splice-sites around exon 2 displayed an mRNA processing pattern indicative of co-regulated splicing of exons 2 and 3.ConclusionsA combination of sensitive techniques may assure a high (100%) STK11 mutation detection frequency in PJS families. Characterization of mutations at mRNA level may give a deeper insight into the molecular consequences of the pathogenic mutations than predictions made solely at the genomic level.

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Section: Discussionsupporting

confidence: 89%

High prevalence of germline STK11mutations in Hungarian Peutz-Jeghers Syndrome patients

et al. 2010

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“…Therefore we could observe a total of three transcripts with predicted premature termination codons, one in normal controls and three in the patient. As our experimental conditions did not block nonsense-mediated RNA decay (NMD) [9, 10], the transcripts seem not to be subject of NMD. This may reflect the fact that the efficiency of NMD in lymphocytes is lower than in other cell types [10].…”

Section: Discussionmentioning

confidence: 99%

“…As our experimental conditions did not block nonsense-mediated RNA decay (NMD) [9, 10], the transcripts seem not to be subject of NMD. This may reflect the fact that the efficiency of NMD in lymphocytes is lower than in other cell types [10]. It has to be stressed that our experiment using peripheral blood lymphocyte mRNA may not fully reflect the expression of SYNGAP1 in the brain.…”

Section: Discussionmentioning

confidence: 99%

Analysis of 31-year-old patient with SYNGAP1 gene defect points to importance of variants in broader splice regions and reveals developmental trajectory of SYNGAP1-associated phenotype: case report

et al. 2017

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BackgroundWhole exome sequencing is a powerful tool for the analysis of genetically heterogeneous conditions. The prioritization of variants identified often focuses on nonsense, frameshift and canonical splice site mutations, and highly deleterious missense variants, although other defects can also play a role. The definition of the phenotype range and course of rare genetic conditions requires long-term clinical follow-up of patients.Case presentationWe report an adult female patient with severe intellectual disability, severe speech delay, epilepsy, autistic features, aggressiveness, sleep problems, broad-based clumsy gait and constipation. Whole exome sequencing identified a de novo mutation in the SYNGAP1 gene. The variant was located in the broader splice donor region of intron 10 and replaced G by A at position +5 of the splice site. The variant was predicted in silico and shown experimentally to abolish the regular splice site and to activate a cryptic donor site within exon 10, causing frameshift and premature termination. The overall clinical picture of the patient corresponded well with the characteristic SYNGAP1-associated phenotype observed in previously reported patients. However, our patient was 31 years old which contrasted with most other published SYNGAP1 cases who were much younger. Our patient had a significant growth delay and microcephaly. Both features normalised later, although the head circumference stayed only slightly above the lower limit of the norm. The patient had a delayed puberty. Her cognitive and language performance remained at the level of a one-year-old child even in adulthood and showed a slow decline. Myopathic facial features and facial dysmorphism became more pronounced with age. Although the gait of the patient was unsteady in childhood, more severe gait problems developed in her teens. While the seizures remained well-controlled, her aggressive behaviour worsened with age and required extensive medication.ConclusionsThe finding in our patient underscores the notion that the interpretation of variants identified using whole exome sequencing should focus not only on variants in the canonical splice dinucleotides GT and AG, but also on broader splice regions. The long-term clinical follow-up of our patient contributes to the knowledge of the developmental trajectory in individuals with SYNGAP1 gene defects.Electronic supplementary materialThe online version of this article (doi:10.1186/s12881-017-0425-4) contains supplementary material, which is available to authorized users.

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“…At protein level, the deletion of coding exons 2-4 is predicted to lead to a frameshift and a premature termination codon [NP_000129.3:p.(Pro56Cysfs*3)]. Thus, nonsense mediated mRNA decay may take place resulting in functional haploinsufficiency (15). Testing of the index patient's firstdegree relatives for the detected FBN1 deletion by MLPA and Sanger sequencing revealed that the deletion is present in the patient's sister and mother but absent in the father, as expected based on clinical features (Figure 2).…”

Section: Adamtsl4 Bgn Cbs Col1a1 Col1a2 Col4a5 Col5a1 Col5a2 mentioning

confidence: 99%

Hungarian Marfan family with large FBN1 deletion calls attention to copy number variation detection in the current NGS era

Benke¹,

Ágg²,

Meienberg³

et al. 2018

J. Thorac. Dis.

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Copy number variations (CNVs) comprise about 10% of reported disease-causing mutations in Mendelian disorders. Nevertheless, pathogenic CNVs may have been under-detected due to the lack or insufficient use of appropriate detection methods. In this report, on the example of the diagnostic odyssey of a patient with Marfan syndrome (MFS) harboring a hitherto unreported 32-kb FBN1 deletion, we highlight the need for and the feasibility of testing for CNVs (>1 kb) in Mendelian disorders in the current nextgeneration sequencing (NGS) era.

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Quantitative sequence analysis ofFBN1premature termination codons provides evidence for incomplete NMD in leukocytes

Cited by 24 publications

References 61 publications

High prevalence of germline STK11mutations in Hungarian Peutz-Jeghers Syndrome patients

High prevalence of germline STK11mutations in Hungarian Peutz-Jeghers Syndrome patients

Analysis of 31-year-old patient with SYNGAP1 gene defect points to importance of variants in broader splice regions and reveals developmental trajectory of SYNGAP1-associated phenotype: case report

Hungarian Marfan family with large FBN1 deletion calls attention to copy number variation detection in the current NGS era

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