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. 2023 Feb;270(2):925-937.
doi: 10.1007/s00415-022-11432-0. Epub 2022 Nov 2.

Clinical, muscle imaging, and genetic characteristics of dystrophinopathies with deep-intronic DMD variants

Zhiying Xie #  1 Chengyue Sun #  2 Chang Liu  1 Zhihao Xie  3 Luhua Wei  1 Jiaxi Yu  1 Chen Ling  1 Xuejun Guo  4 Yilin Liu  5 Meng Yu  1 Yinglin Leng  1 Lingchao Meng  1 Yunchuang Sun  1 Jianwen Deng  1 Suzanne M Leal  6 Isabelle Schrauwen #  6 Zhaoxia Wang #  1 Yun Yuan #  7
Affiliations

Clinical, muscle imaging, and genetic characteristics of dystrophinopathies with deep-intronic DMD variants

Zhiying Xie et al. J Neurol. 2023 Feb.

Abstract

Background: Phenotypic heterogeneity within or between families with a same deep-intronic splice-altering variant in the DMD gene has never been systematically analyzed. This study aimed to determine the phenotypic and genetic characteristics of patients with deep-intronic DMD variants.

Methods: Of 1338 male patients with a suspected dystrophinopathy, 38 were confirmed to have atypical pathogenic DMD variants via our comprehensive genetic testing approach. Of the 38 patients, 30 patients from 22 unrelated families with deep-intronic DMD variants underwent a detailed clinical and imaging assessment.

Results: Nineteen different deep-intronic DMD variants were identified in the 30 patients, including 15 with Duchenne muscular dystrophy (DMD), 14 with Becker muscular dystrophy (BMD), and one with X-linked dilated cardiomyopathy. Of the 19 variants, 15 were single-nucleotide variants, 2 were structural variants (SVs), and 2 were pure-intronic large-scale SVs causing aberrant inclusion of other protein-coding genes sequences into the mature DMD transcripts. The trefoil with single fruit sign was observed in 18 patients and the concentric fatty infiltration pattern was observed in 2 patients. Remarkable phenotypic heterogeneity was observed not only in skeletal but also cardiac muscle involvement in 2 families harboring a same deep-intronic variant. Different skeletal muscle involvement between families with a same variant was observed in 4 families. High inter-individual phenotypic heterogeneity was observed within two BMD families and one DMD family.

Conclusions: Our study first highlights the variable phenotypic expressivity of deep-intronic DMD variants and demonstrates a new class of deep-intronic DMD variants, i.e., pure-intronic SVs involving other protein-coding genes.

Keywords: Aberrant splicing; Deep-intronic variants; Dystrophinopathies; Muscle imaging; Phenotypic heterogeneity.

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References

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