A generic assay for the identification of splicing variants that induce nonsense-mediated decay in Pompe disease

DNA variants affecting mRNA expression and processing in genetic diseases are often missed or poorly characterized. We previously reported a generic assay to identify variants that affect mRNA expression and splicing in Pompe disease, a monogenic disorder caused by deficiency of acid α-glucosidase (...

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Veröffentlicht in:European journal of human genetics : EJHG 2021-03, Vol.29 (3), p.422-433
Hauptverfasser: Bergsma, Atze J, In 't Groen, Stijn L M, Catalano, Fabio, Yamanaka, Manjiro, Takahashi, Satoru, Okumiya, Toshika, van der Ploeg, Ans T, Pijnappel, W W M Pim
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Sprache:eng
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Zusammenfassung:DNA variants affecting mRNA expression and processing in genetic diseases are often missed or poorly characterized. We previously reported a generic assay to identify variants that affect mRNA expression and splicing in Pompe disease, a monogenic disorder caused by deficiency of acid α-glucosidase (GAA). However, this assay could miss mRNA that is subjected to degradation. Here, we inhibited mRNA degradation using cycloheximide and performed unbiased splicing analysis of all GAA exons using exon flanking RT-PCR and exon internal RT-qPCR. In four patients that were suspected of harboring splicing variants but for which aberrant splicing could not be detected in normally growing cells, we detected a total of 10 novel splicing events in cells treated with cycloheximide. In addition, we found that sequences of GAA introns 6 and 12 were naturally included in a subset of transcripts from patients and healthy controls, indicating inefficient canonical splicing. Identification of aberrant splicing caused by the common Asian variant c.546G>T allowed the development of an antisense oligonucleotide that promoted canonical GAA pre-mRNA splicing and elevated GAA enzymatic activity. Our results indicate that this extended generic splicing assay allows the detection of aberrant splicing in cases of mRNA degradation to enable functional analysis of unknown splicing variants and the development of targeted treatment options.
ISSN:1018-4813
1476-5438
DOI:10.1038/s41431-020-00751-3