BACKGROUND: Myotonic dystrophy type 1 is caused by an unstable (CTG)n repetition located in the 3'UTR of the DM protein kinase gene (DMPK). Untranslated expanded DMPK transcripts are retained in ribonuclear foci which sequester CUG-binding proteins essential for the maturation of pre-mRNAs. AIM: To investigate the effects of CTG expansion length on three molecular parameters associated with the DM1 muscle pathology: (1) the expression level of the DMPK gene; (2) the degree of splicing misregulation; and (3) the number of ribonuclear foci. METHODS: Splicing analysis of the IR, MBNL1, c-TNT and CLCN1 genes, RNA-FISH experiments and determination of the DMPK expression on muscle samples from DM1 patients with an expansion below 500 repetitions (n = 6), DM1 patients carrying a mutation above 1000 CTGs (n = 6), and from controls (n = 6). RESULTS: The level of aberrant splicing of the IR, MBNL1, c-TNT and CLCN1 genes is different between the two groups of DM1 muscle samples and correlates with the CTG repeat length. RNA-FISH analysis revealed that the number of ribonuclear foci in DM1 muscle sections increases in patients with a higher (CTG)n number. No relationships were found between the expression level of the DMPK gene transcript and average expansion sizes. CONCLUSION: The CTG repeat length plays a key role in the extent of splicing misregulation and foci formation, thus providing a useful link between the genotype and the molecular cellular phenotype in DM1.
BACKGROUND:Myotonic dystrophy type 1 is caused by an unstable (CTG)n repetition located in the 3'UTR of the DM protein kinase gene (DMPK). Untranslated expanded DMPK transcripts are retained in ribonuclear foci which sequester CUG-binding proteins essential for the maturation of pre-mRNAs. AIM: To investigate the effects of CTG expansion length on three molecular parameters associated with the DM1 muscle pathology: (1) the expression level of the DMPK gene; (2) the degree of splicing misregulation; and (3) the number of ribonuclear foci. METHODS: Splicing analysis of the IR, MBNL1, c-TNT and CLCN1 genes, RNA-FISH experiments and determination of the DMPK expression on muscle samples from DM1patients with an expansion below 500 repetitions (n = 6), DM1patients carrying a mutation above 1000 CTGs (n = 6), and from controls (n = 6). RESULTS: The level of aberrant splicing of the IR, MBNL1, c-TNT and CLCN1 genes is different between the two groups of DM1 muscle samples and correlates with the CTG repeat length. RNA-FISH analysis revealed that the number of ribonuclear foci in DM1 muscle sections increases in patients with a higher (CTG)n number. No relationships were found between the expression level of the DMPK gene transcript and average expansion sizes. CONCLUSION: The CTG repeat length plays a key role in the extent of splicing misregulation and foci formation, thus providing a useful link between the genotype and the molecular cellular phenotype in DM1.
Authors: Lisa Mosconi; Valentina Berti; Russell H Swerdlow; Alberto Pupi; Ranjan Duara; Mony de Leon Journal: Hum Genomics Date: 2010-02 Impact factor: 4.639
Authors: A Botta; A Malena; E Tibaldi; L Rocchi; E Loro; E Pena; L Cenci; E Ambrosi; M C Bellocchi; M A Pagano; G Novelli; G Rossi; H L Monaco; E Gianazza; B Pantic; V Romeo; O Marin; A M Brunati; L Vergani Journal: Cell Death Dis Date: 2013-08-15 Impact factor: 8.469
Authors: Rosanna Cardani; Enrico Bugiardini; Laura V Renna; Giulia Rossi; Graziano Colombo; Rea Valaperta; Giuseppe Novelli; Annalisa Botta; Giovanni Meola Journal: PLoS One Date: 2013-12-20 Impact factor: 3.240