A recurrent COL6A1 pseudoexon insertion causes muscular dystrophy and is effectively targeted by splice-correction therapies
Véronique Bolduc, … , Francesco Muntoni, Carsten G. Bönnemann
Véronique Bolduc, … , Francesco Muntoni, Carsten G. Bönnemann
Published March 21, 2019
Citation Information: JCI Insight. 2019;4(6):e124403. https://doi.org/10.1172/jci.insight.124403.
View: Text | PDF
Research Article Muscle biology Therapeutics

A recurrent COL6A1 pseudoexon insertion causes muscular dystrophy and is effectively targeted by splice-correction therapies

Abstract

The clinical application of advanced next-generation sequencing technologies is increasingly uncovering novel classes of mutations that may serve as potential targets for precision medicine therapeutics. Here, we show that a deep intronic splice defect in the COL6A1 gene, originally discovered by applying muscle RNA sequencing in patients with clinical findings of collagen VI–related dystrophy (COL6-RD), inserts an in-frame pseudoexon into COL6A1 mRNA, encodes a mutant collagen α1(VI) protein that exerts a dominant-negative effect on collagen VI matrix assembly, and provides a unique opportunity for splice-correction approaches aimed at restoring normal gene expression. Using splice-modulating antisense oligomers, we efficiently skipped the pseudoexon in patient-derived fibroblast cultures and restored a wild-type matrix. Similarly, we used CRISPR/Cas9 to precisely delete an intronic sequence containing the pseudoexon and efficiently abolish its inclusion while preserving wild-type splicing. Considering that this splice defect is emerging as one of the single most frequent mutations in COL6-RD, the design of specific and effective splice-correction therapies offers a promising path for clinical translation.

Authors

Véronique Bolduc, A. Reghan Foley, Herimela Solomon-Degefa, Apurva Sarathy, Sandra Donkervoort, Ying Hu, Grace S. Chen, Katherine Sizov, Matthew Nalls, Haiyan Zhou, Sara Aguti, Beryl B. Cummings, Monkol Lek, Taru Tukiainen, Jamie L. Marshall, Oded Regev, Dina Marek-Yagel, Anna Sarkozy, Russell J. Butterfield, Cristina Jou, Cecilia Jimenez-Mallebrera, Yan Li, Corine Gartioux, Kamel Mamchaoui, Valérie Allamand, Francesca Gualandi, Alessandra Ferlini, Eric Hanssen, the COL6A1 Intron 11 Study Group, Steve D. Wilton, Shireen R. Lamandé, Daniel G. MacArthur, Raimund Wagener, Francesco Muntoni, Carsten G. Bönnemann

×

Figure 4

Skipping of the COL6A1 pseudoexon mitigates the dominant-negative effect in cultured dermal fibroblasts.

Options: View larger image (or click on image) Download as PowerPoint
Skipping of the COL6A1 pseudoexon mitigates the dominant-negative effect...
Cultured dermal fibroblasts from controls and patients were treated with the nontargeting control PMO (PMO-NT), or with PMO-PEX1, or a combination of PMO-PEX2 and PMO-SD, at a total PMO concentration of 30 μM for each condition, in the presence of L-ascorbic acid, for 4 days. (A) Immunoblots of the medium (secreted) or cell lysate (cellular) fractions were probed with the pseudoexon-specific antibody [Pex11-α1(VI)], and then blots were stripped and probed with an antibody detecting collagen α1(VI). Tubulin was probed as control. Mock = transfection reagent only. (B) Fibroblast cultures were fixed and stained for matrix-deposited collagen VI (green). Nuclei were stained with DAPI (blue). Scale bars: 25 μm. (C) Microfibrillar length (number of tetramers per collagen VI microfibril) was measured as described in Figure 2D, and is reported as a dot plot. Lines represent mean ± standard deviation. *P < 0.05, **P < 0.0002 by Mann-Whitney U test, Bonferroni corrected for 2 comparisons.