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CUG repeat expansions in the 3′ UTR of dystrophia myotonica protein kinase (DMPK) cause myotonic dystrophy type 1 (DM1). As RNA, these repeats elicit toxicity by sequestering splicing proteins, such as MBNL1, into protein–RNA aggregates. Structural studies demonstrate that CUG repeats can form A-form helices, suggesting that repeat secondary structure could be important in pathogenicity. To evaluate this hypothesis, we utilized structure-stabilizing RNA modifications pseudouridine (Ψ) and 2′-O-methylation to determine if stabilization of CUG helical conformations affected toxicity. CUG repeats modified with Ψ or 2′-O-methyl groups exhibited enhanced structural stability and reduced affinity for MBNL1. Molecular dynamics and X-ray crystallography suggest a potential water-bridging mechanism for Ψ-mediated CUG repeat stabilization. Ψ modification of CUG repeats rescued mis-splicing in a DM1 cell model and prevented CUG repeat toxicity in zebrafish embryos. This study indicates that the structure of toxic RNAs has a significant role in controlling the onset of neuromuscular diseases.  相似文献   

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The CUG-binding protein (CUG-BP) has been reported to be involved in the pathogenesis of myotonic dystrophy (DM) through binding to a CUG trinucleotide repeat located in the 3' untranslated region (3'UTR) of the DM protein kinase (DMPK) gene. We found that CUG-BP associates with long CUG trinucleotide repeats ((CUG)(11)(CUG)(12)), but not with short repeats ((CUG)(12)) in a yeast three-hybrid system. On the other hand, CUG-BP+LYLQ, an alternatively spliced isoform of CUG-BP, does not associate with CUG trinucleotide repeats regardless of the repeat length. In addition to these findings, we found that CUG-BP and CUG-BP+LYLQ strongly and specifically associate with UG dinucleotide repeats. Deletion analyse of CUG-BP revealed that the absence of the first or third RNA-binding domain (RBD I and RBD III, respectively) does not affect the interaction between CUG-BP and UG dinucleotide repeats. Loss of the second RNA-binding domain (RBD II) decreases the affinity of CUG-BP for UG dinucleotide repeats by about 40%. Unexpectedly, deletion of the linker domain most severely reduces the interaction, although this region does not contain a known RNA-binding motif. Our results suggest the possibility that both CUG-BP and CUG-BP+LYLQ associate with UG repeat-containing mRNAs and regulate such metabolic properties as mRNA localization, stability, and translation, and provide new insights into the pathogenesis of DM.  相似文献   

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Myotonic dystrophy (DM) is the most common form of adult onset muscular dystrophy. Patients have a large CTG repeat expansion in the 3' untranslated region of the DMPK gene, which encodes DM protein kinase. RNA trans-dominant models, which hypothesize that the expanded CUG trinucleotide repeat on DMPK mRNA sequesters a factor or disrupts the RNA metabolism of the DMPK mRNA itself and other mRNAs in a trans dominant manner, have been proposed. A candidate for the sequestered factor, termed CUG-binding protein (CUG-BP), exists in several alternatively spliced isoforms. We found a human isoform with a twelve base insertion (deduced amino acids Leu-Tyr-Leu-Gln) and an isoform with a three base insertion (deduced amino acid Ala) insertion. In order to elucidate the effects of CUG-BP on DMPK expression, we introduced CUG-BP and DMPK cDNA transiently into COS-7 cells. Cotransfection of CUG-BP did not significantly affect the expression of either wild type or mutant DMPK at the mRNA level. On the other hand, cotransfection of CUG-BP significantly affected the expression of both the wild type and mutant DMPKs at the protein level. This reduction was remarkable when the mutant DMPK construct was used.  相似文献   

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