Disrupted prenatal RNA processing and myogenesis in congenital myotonic dystrophy

Thomas, James; Sznajder, Łukasz J.; Bardhi, Olgert; Aslam, Faaiq; Anastasiadis, Zacharias P.; Scotti, Marina M.; Nishino, Ichizo; Nakamori, Mikihito; Wang, Eric T.; Swanson, Maurice S.

doi:10.1101/gad.300590.117

Cited by 81 publications

(130 citation statements)

References 59 publications

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“…Thomas et al (2017) addressed this question by showing that disrupted RNA processing also underlies CDM pathology, with key differences from adult-onset DM1 that may explain the severity and the early onset of CDM. Thomas et al (2017) first quantified splicing dysregulation in CDM by comparing the skeletal muscle transcriptomes of CDM-affected infants with disease control (spinal muscular atrophy type I) and healthy control transcriptomes. They identified hundreds of potentially disease-relevant isoforms that were differentially spliced in CDM muscle relative to controls as well as dysregulated alternative polyadenylation.…”

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confidence: 99%

“…In contrast, CDM exhibits early, with in utero onset of disease. Thomas et al (2017) therefore tested whether RNA misprocessing similarly occurred in utero in CDM-affected individuals. The investigators first assessed whether splicing transitions are widespread during skeletal muscle development in utero.…”

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confidence: 99%

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Thomas and colleagues (pp. 1122-1133)

demonstrate severe dysregulation of developmentally regulated alternative splicing and polyadenylation in congenital myotonic dystrophy (CDM).

…”

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confidence: 99%

“…CDM tissue had the lowest inferred functional MBNL concentration and more extreme differential splicing relative to adult-onset DM1 samples. These results indicate that CDM is a spliceopathy like adult-onset DM1, albeit with more severe splicing dysregulation that is presumably due to the presence of long CTG repeats in the prenatal genome.Having established the severity of RNA misprocessing in postnatal CDM muscle, Thomas et al (2017) next tackled the timing of misregulation. In adult-onset DM1, pathogenic RNA misprocessing occurs postnatally.…”

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confidence: 99%

“…These analyses suggested that CDM is characterized by dysregulated prenatal splicing and reversion of developmental splicing transitions that are important for muscle development. Thomas et al (2017) next sought to establish murine models of CDM. First, they showed that conditional knockout of Mbnl1 and Mbnl2 recapitulated much of the spliceopathy and several phenotypes of CDM but resulted in more modest differential gene expression than they observed in CDM.…”

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confidence: 99%

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Congenital myotonic dystrophy—an RNA-mediated disease across a developmental continuum

Jagannathan

Bradley

2017

Genes Dev.

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Thomas and colleagues (pp. 1122-1133) demonstrate severe dysregulation of developmentally regulated alternative splicing and polyadenylation in congenital myotonic dystrophy (CDM). In doing so, they also highlight the importance of these post-transcriptional processes during normal fetal muscle development. Finally, they generate and characterize a mouse model of CDM that lacks all three Muscleblind-like proteins.

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mentioning

confidence: 99%

mentioning

confidence: 99%

“…

Thomas and colleagues (pp. 1122-1133)

demonstrate severe dysregulation of developmentally regulated alternative splicing and polyadenylation in congenital myotonic dystrophy (CDM).

…”

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Congenital myotonic dystrophy—an RNA-mediated disease across a developmental continuum

Jagannathan

Bradley

2017

Genes Dev.

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Myotonic Dystrophy and Developmental Regulation of RNA Processing

Thomas

Oliveira

Sznajder

et al. 2018

Comprehensive Physiology

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Myotonic dystrophy (DM) is a multisystemic disorder caused by microsatellite expansion mutations in two unrelated genes leading to similar, yet distinct, diseases. DM disease presentation is highly variable and distinguished by differences in age-of-onset and symptom severity. In the most severe form, DM presents with congenital onset and profound developmental defects. At the molecular level, DM pathogenesis is characterized by a toxic RNA gain-of-function mechanism that involves the transcription of noncoding microsatellite expansions. These mutant RNAs disrupt key cellular pathways, including RNA processing, localization, and translation. In DM, these toxic RNA effects are predominantly mediated through the modulation of the muscleblind-like and CUGBP and ETR-3-like factor families of RNA binding proteins (RBPs). Dysfunction of these RBPs results in widespread RNA processing defects culminating in the expression of developmentally inappropriate protein isoforms in adult tissues. The tissue that is the focus of this review, skeletal muscle, is particularly sensitive to mutant RNA-responsive perturbations, as patients display a variety of developmental, structural, and functional defects in muscle. Here, we provide a comprehensive overview of DM1 and DM2 clinical presentation and pathology as well as the underlying cellular and molecular defects associated with DM disease onset and progression. Additionally, fundamental aspects of skeletal muscle development altered in DM are highlighted together with ongoing and potential therapeutic avenues to treat this muscular dystrophy. © 2018 American Physiological Society. Compr Physiol 8:509-553, 2018.

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hnRNP L is essential for myogenic differentiation and modulates myotonic dystrophy pathologies

et al. 2021

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Introduction: RNA-binding proteins (RBPs) play an important role in skeletal muscle development and disease by regulating RNA splicing. In myotonic dystrophy type 1 (DM1), the RBP MBNL1 (muscleblind-like) is sequestered by toxic CUG repeats, leading to missplicing of MBNL1 targets. Mounting evidence from the literature has implicated other factors in the pathogenesis of DM1. Herein we sought to evaluate the functional role of the splicing factor hnRNP L in normal and DM1 muscle cells.Methods: Co-immunoprecipitation assays using hnRNPL and MBNL1 expression constructs and splicing profiling in normal and DM1 muscle cell lines were performed.

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Disrupted prenatal RNA processing and myogenesis in congenital myotonic dystrophy

Cited by 81 publications

References 59 publications

Congenital myotonic dystrophy—an RNA-mediated disease across a developmental continuum

Congenital myotonic dystrophy—an RNA-mediated disease across a developmental continuum

Myotonic Dystrophy and Developmental Regulation of RNA Processing

hnRNP L is essential for myogenic differentiation and modulates myotonic dystrophy pathologies

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