Cell-type-specific dysregulation of RNA alternative splicing in short tandem repeat mouse knockin models of myotonic dystrophy.

Curtis A Nutter,Jodi L Bubenik,Ruan Oliveira,Łukasz J Sznajder,Benjamin M Kidd,Maurice S Swanson,Brittney A Otero,Franjo Ivankovic,Eric T Wang,Eric A Vitriol,Belinda S Pinto,Helmut A Carter

doi:10.1101/gad.328963.119

Cell-type-specific dysregulation of RNA alternative splicing in short tandem repeat mouse knockin models of myotonic dystrophy.

Curtis A Nutter, Jodi L Bubenik + Show 10 more

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https://doi.org/10.1101/gad.328963.119

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Journal: Genes & development	Publication Date: Oct 17, 2019
Citations: 18	License type: cc-by-nc

Affiliation: University of Florida

#Cerebrospinal Fluid Homeostasis #Early Pathogenic Events #Rolling Circle #Skeletal Muscle Myoblasts #RNA Missplicing #Short Tandem Repeats #Hereditary Neurological Diseases #Dysregulation Of Splicing #Neuromuscular Diseases #Models Of Dystrophy

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Short tandem repeats (STRs) are prone to expansion mutations that cause multiple hereditary neurological and neuromuscular diseases. To study pathomechanisms using mouse models that recapitulate the tissue specificity and developmental timing of an STR expansion gene, we used rolling circle amplification and CRISPR/Cas9-mediated genome editing to generate Dmpk CTG expansion (CTGexp) knockin models of myotonic dystrophy type 1 (DM1). We demonstrate that skeletal muscle myoblasts and brain choroid plexus epithelial cells are particularly susceptible to Dmpk CTGexp mutations and RNA missplicing. Our results implicate dysregulation of muscle regeneration and cerebrospinal fluid homeostasis as early pathogenic events in DM1.

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Cell-type-specific dysregulation of RNA alternative splicing in short tandem repeat mouse knockin models of myotonic dystrophy.