Maki Minegishi scite author profile

Maki Minegishi

3Publications

33Citation Statements Received

79Citation Statements Given

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Kobe Pharmaceutical University

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Neuronal SH-SY5Y cells use the C-dystrophin promoter coupled with exon 78 skipping and display multiple patterns of alternative splicing including two intronic insertion events

et al. 2015

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Duchenne muscular dystrophy (DMD) is a progressive muscle wasting disease caused by mutations in the dystrophin gene. One-third of DMD cases are complicated by mental retardation. Here, we used reverse transcription PCR to analyze the pattern of dystrophin transcripts in neuronal SH-SY5Y cells. Among the three alternative promoters/first exons at the 5'-end, only transcripts containing the brain cortex-specific C1 exon could be amplified. The C-transcript appeared as two products: a major product of the expected size and a minor larger product that contained the cryptic exon 1a between exons C1 and 2. At the 3'-end there was complete exon 78 skipping. Together, these findings indicate that SH-SY5Y cells have neuron-specific characteristics with regard to both promoter activation and alternative splicing. We also revealed partial skipping of exons 9 and 71. Four amplified products were obtained from a fragment covering exons 36-41: a strong expected product, two weak products lacking either exon 37 or exon 38, and a second strong larger product with a 568-bp insertion between exons 40 and 41. The inserted sequence matched the 3'-end of intron 40 perfectly. We concluded that a cryptic splice site was activated in SH-SY5Y cells to create the novel, unusually large, exon 41e (751 bp). In total, we identified seven alternative splicing events in neuronal SH-SY5Y cells, and calculated that 32 dystrophin transcripts could be produced. Our results may provide clues in the analysis of transcriptype-phenotype correlations as regards mental retardation in DMD.

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Tissue- and case-specific retention of intron 40 in mature dystrophin mRNA

et al. 2015

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The dystrophin gene, which is mutated in Duchenne muscular dystrophy (DMD), comprises 79 exons that show multiple alternative splicing events. Intron retention, a type of alternative splicing, may control gene expression. We examined intron retention in dystrophin introns by reverse-transcription PCR from skeletal muscle, focusing on the nine shortest (all <1000 bp), because these are more likely to be retained. Only one, intron 40, was retained in mRNA; sequencing revealed insertion of a complete intron 40 (851 nt) between exons 40 and 41. The intron 40 retention product accounted for 1.2% of the total product but had a premature stop codon at the fifth intronic codon. Intron 40 retention was most strongly observed in the kidney (36.6%) and was not obtained from the fetal liver, lung, spleen or placenta. This indicated that intron retention is a tissue-specific event whose level varies among tissues. In two DMD patients, intron 40 retention was observed in one patient but not in the other. Examination of splicing regulatory factors revealed that intron 40 had the highest guanine-cytosine content of all examined introns in a 30-nt segment at its 3' end. Further studies are needed to clarify the biological role of intron 40-retained dystrophin mRNA.

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Tissue- and case-specific retention of intron 40 in mature dystrophin mRNA

Nishida

Minegishi

Takeuchi

et al. 2015

Neuromuscular Disorders

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Maki Minegishi

Neuronal SH-SY5Y cells use the C-dystrophin promoter coupled with exon 78 skipping and display multiple patterns of alternative splicing including two intronic insertion events

Tissue- and case-specific retention of intron 40 in mature dystrophin mRNA

Tissue- and case-specific retention of intron 40 in mature dystrophin mRNA

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