A CTG repeat-selective chemical screen identifies microtubule inhibitors as selective modulators of toxic CUG RNA levels

Reddy, Kaalak; Jenquin, Jana R.; McConnell, Ona; Cleary, John D.; Richardson, Jared; Pinto, Belinda S.; Haerle, Maja C.; Delgado, Elizabeth; Planco, Lori; Nakamori, Mikihito; Wang, Eric T.; Berglund, J. Andrew

doi:10.1073/pnas.1901893116

Cited by 21 publications

(40 citation statements)

References 70 publications

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“…Many methods for screening potential medicaments have been studied on DNA, RNA, and protein levels [ 304 , 305 ]. The most numerous and promising group of potential therapeutics is composed of small compounds and antisense oligonucleotides which release sequestered proteins from RNP inclusions due to their high affinity or complementarity to toxic repeats and sometimes induction of degradation of toxic RNA [ 305 , 306 , 307 , 308 , 309 ]. An antisense oligonucleotide-based reagent, ISIS-DMPK-2.5 RX , was the first potential DM1-specific drug which underwent clinical research [ 304 , 310 ].…”

Section: Splicing-related Diseases Mediated By Rna Structural Arramentioning

confidence: 99%

“…An antisense oligonucleotide-based reagent, ISIS-DMPK-2.5 RX , was the first potential DM1-specific drug which underwent clinical research [ 304 , 310 ]. However, due to low therapeutic effect in DM1 patients’ tissues the trial was halted whereas new potential reagents are being intensively screened [ 309 , 311 , 312 , 313 ].…”

Section: Splicing-related Diseases Mediated By Rna Structural Arramentioning

confidence: 99%

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Intrinsic Regulatory Role of RNA Structural Arrangement in Alternative Splicing Control

Taylor

Sobczak

2020

IJMS

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Alternative splicing is a highly sophisticated process, playing a significant role in posttranscriptional gene expression and underlying the diversity and complexity of organisms. Its regulation is multilayered, including an intrinsic role of RNA structural arrangement which undergoes time- and tissue-specific alterations. In this review, we describe the principles of RNA structural arrangement and briefly decipher its cis- and trans-acting cellular modulators which serve as crucial determinants of biological functionality of the RNA structure. Subsequently, we engage in a discussion about the RNA structure-mediated mechanisms of alternative splicing regulation. On one hand, the impairment of formation of optimal RNA structures may have critical consequences for the splicing outcome and further contribute to understanding the pathomechanism of severe disorders. On the other hand, the structural aspects of RNA became significant features taken into consideration in the endeavor of finding potential therapeutic treatments. Both aspects have been addressed by us emphasizing the importance of ongoing studies in both fields.

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Section: Splicing-related Diseases Mediated By Rna Structural Arramentioning

confidence: 99%

Section: Splicing-related Diseases Mediated By Rna Structural Arramentioning

confidence: 99%

Intrinsic Regulatory Role of RNA Structural Arrangement in Alternative Splicing Control

Taylor

Sobczak

2020

IJMS

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“…Given the widespread changes in alternative splicing in mbnl mutant zebrafish, we asked whether these changes were conserved with those identified in human DM patients. Using publicly available datasets, we identified cassette exons for which inclusion was significantly misregulated in DM1 tibialis anterior muscle biopsy tissues ( Wang et al, 2019 ) or in DM1 patient-derived post-mitotic myotubes ( Reddy et al, 2019 ) compared to healthy control tissues, and compared them with the zebrafish RNA-Seq data. We identified 25 orthologous cassette exons that were misregulated in both 1 B/B ;2 A/A ;3 C/C mutant fish and in DM1 tibialis muscle, and 40 that were misregulated in both 1 B/B ;2 A/A ;3 C/C mutant fish and in the DM1 myotubes ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…The data for human DM1 tibialis anterior comparisons were downloaded from NCBI Gene Expression Omnibus (GEO), accession number GSE86356 (Wang et al, 2019). Data for the DM1-derived postmitotic myotubes were downloaded from NCBI Sequence Read Archive (SRA), study SRP158284 (Reddy et al, 2019). The data were processed as described above and then compared to the zebrafish data for orthologous mis-splicing events.…”

Section: Measurement Of Zebrafish Sizementioning

confidence: 99%

Zebrafish mbnl mutants model physical and molecular phenotypes of myotonic dystrophy

Hinman

Richardson

Sockol

et al. 2021

Disease Models &Amp; Mechanisms

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The muscleblind RNA binding proteins (MBNL1, MBNL2, and MBNL3) are highly conserved across vertebrates and are important regulators of RNA alternative splicing. Loss of MBNL protein function through sequestration by CUG or CCUG RNA repeats is largely responsible for the phenotypes of the human genetic disorder myotonic dystrophy (DM). We generated the first stable zebrafish (Danio rerio) models of DM-associated MBNL loss of function through mutation of the three zebrafish mbnl genes. In contrast to mouse models, zebrafish double and triple homozygous mbnl mutants were viable to adulthood. Zebrafish mbnl mutants displayed disease-relevant physical phenotypes including decreased body size and impaired movement. They also exhibited widespread alternative splicing changes, including the misregulation of many DM-relevant exons. Physical and molecular phenotypes were more severe in compound mbnl mutants than in single mbnl mutants, suggesting partially redundant functions of Mbnl proteins. The high fecundity and larval optical transparency of this complete series of zebrafish mbnl mutants will make them useful for studying DM-related phenotypes and how individual Mbnl proteins contribute to them, and for testing potential therapeutics.

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“…In addition to drugs designed to directly target RNA, chemical screens have identified potent modulators of repeat RNA toxicity. Unexpectedly, for example, such tests revealed that multiple inhibitors of microtubule function selectively reduce toxic CUG repeat RNA levels and partially rescue splicing profiles in a DM1 HeLa model ( Reddy et al 2019 ). Subsequent tests of the FDA-approved microtubule inhibitor colchicine in DM1 mice and patient cells revealed a selective modulation of CUG repeat RNA levels, likely a result of impaired cytoskeletal and nucleoskeletal complexes, raising the possibility that colchicine may be useful in treatment of other repeat expansion disorders ( Reddy et al 2019 ).…”

Section: Reductions Of Toxic Rna Levelsmentioning

confidence: 99%

Repeat RNA expansion disorders of the nervous system: post-transcriptional mechanisms and therapeutic strategies

Schwartz

Jones

Yeo

2020

Critical Reviews in Biochemistry and Molecular Biology

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Dozens of incurable neurological disorders result from expansion of short repeat sequences in both coding and non-coding regions of the transcriptome. Short repeat expansions underlie microsatellite repeat expansion (MRE) disorders including myotonic dystrophy (DM1, CUG 50–3,500 in DMPK ; DM2, CCTG 75–11,000 in ZNF9), fragile X tremor ataxia syndrome (FXTAS, CGG 50–200 in FMR1), spinal bulbar muscular atrophy (SBMA, CAG 40–55 in AR), Huntington’s disease (HD, CAG 36–121 in HTT), C9ORF72-amyotrophic lateral sclerosis (ALS)/frontotemporal dementia (FTD and C9-ALS/FTD, GGGGCC in C9ORF72), and many others, like ataxias. Recent research has highlighted several mechanisms that may contribute to pathology in this heterogeneous class of neurological MRE disorders – bidirectional transcription, intranuclear RNA foci, and repeat associated non-AUG (RAN) translation – which are the subject of this review. Additionally, many MRE disorders share similar underlying molecular pathologies that have been recently targeted in experimental and preclinical contexts. We discuss the therapeutic potential of versatile therapeutic strategies that may selectively target disrupted RNA-based processes and may be readily adaptable for the treatment of multiple MRE disorders. Collectively, the strategies under consideration for treatment of multiple MRE disorders include reducing levels of toxic RNA, preventing RNA foci formation, and eliminating the downstream cellular toxicity associated with peptide repeats produced by RAN translation. While treatments are still lacking for the majority of MRE disorders, several promising therapeutic strategies have emerged and will be evaluated within this review.

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A CTG repeat-selective chemical screen identifies microtubule inhibitors as selective modulators of toxic CUG RNA levels

Cited by 21 publications

References 70 publications

Intrinsic Regulatory Role of RNA Structural Arrangement in Alternative Splicing Control

Intrinsic Regulatory Role of RNA Structural Arrangement in Alternative Splicing Control

Zebrafish mbnl mutants model physical and molecular phenotypes of myotonic dystrophy

Repeat RNA expansion disorders of the nervous system: post-transcriptional mechanisms and therapeutic strategies

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