splicing defect
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2021 ◽  
Vol 20 ◽  
pp. S305-S306
Author(s):  
N. Sharma ◽  
E. Morini ◽  
D. Gao ◽  
M. Salani ◽  
A. Joynt ◽  
...  
Keyword(s):  

2021 ◽  
Vol 12 (9) ◽  
Author(s):  
Kajal Biswas ◽  
Martin Couillard ◽  
Luca Cavallone ◽  
Sandra Burkett ◽  
Stacey Stauffer ◽  
...  

AbstractHereditary non-polyposis colorectal cancer, now known as Lynch syndrome (LS) is one of the most common cancer predisposition syndromes and is caused by germline pathogenic variants (GPVs) in DNA mismatch repair (MMR) genes. A common founder GPV in PMS2 in the Canadian Inuit population, NM_000535.5: c.2002A>G, leads to a benign missense (p.I668V) but also acts as a de novo splice site that creates a 5 bp deletion resulting in a truncated protein (p.I668*). Individuals homozygous for this GPV are predisposed to atypical constitutional MMR deficiency with a delayed onset of first primary malignancy. We have generated mice with an equivalent germline mutation (Pms2c.1993A>G) and demonstrate that it results in a splicing defect similar to those observed in humans. Homozygous mutant mice are viable like the Pms2 null mice. However, unlike the Pms2 null mice, these mutant mice are fertile, like humans homozygous for this variant. Furthermore, these mice exhibit a significant increase in microsatellite instability and intestinal adenomas on an Apc mutant background. Rectification of the splicing defect in human and murine fibroblasts using antisense morpholinos suggests that this novel mouse model can be valuable in evaluating the efficacy aimed at targeting the splicing defect in PMS2 that is highly prevalent among the Canadian Inuits.


2021 ◽  
Author(s):  
Anil K Chekuri ◽  
Emily M Logan ◽  
Aram J Krauson ◽  
Monica Salani ◽  
Sophie Ackerman ◽  
...  

Familial dysautonomia (FD) is an autosomal recessive neurodegenerative disease caused by a splicing mutation in the gene encoding Elongator complex protein 1 (ELP1, also known as IKBKAP). This mutation results in tissue-specific skipping of exon 20 with a corresponding reduction of ELP1 protein, predominantly in the central and peripheral nervous system. Although FD patients have a complex neurological phenotype caused by continuous depletion of sensory and autonomic neurons, progressive visual decline leading to blindness is one of the most problematic aspect of the disease, as it severely affects their quality of life. To better understand the disease mechanism as well as to test the in vivo efficacy of targeted therapies for FD, we have recently generated a novel phenotypic mouse model, TgFD9; Elp1Δ20/flox. This mouse exhibits most of the clinical features of the disease and accurately recapitulates the tissue-specific splicing defect observed in FD patients. Driven by the dire need to develop therapies targeting retinal degeneration in FD, herein, we comprehensively characterized the progression of the retinal phenotype in this mouse, and we demonstrated that it is possible to correct ELP1 splicing defect in the retina using the splicing modulator compound (SMC) BPN-15477.


Author(s):  
Meredith C. Fidler ◽  
Alexandra Buckley ◽  
James C. Sullivan ◽  
Marvin Statia ◽  
Sylvia F. Boj ◽  
...  
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2020 ◽  
Author(s):  
L. Lawrence ◽  
A. Gorthi ◽  
H. Miller ◽  
A. J. R. Bishop

2020 ◽  
Vol 8 (7) ◽  
Author(s):  
Di Huang ◽  
Jennifer A. Thompson ◽  
Jason Charng ◽  
Enid Chelva ◽  
Samuel McLenachan ◽  
...  

2020 ◽  
Vol 182 (4) ◽  
pp. 2025-2034
Author(s):  
Yiqiong Li ◽  
Xiaomin Liu ◽  
Yuxuan Guo ◽  
Jianbo Xie ◽  
Lulu Wang ◽  
...  

2020 ◽  
Vol 37 (4) ◽  
pp. A26
Author(s):  
Maureen Neitz ◽  
Elise D. Krekling ◽  
Lene A. Hagen ◽  
Hilde R. Pedersen ◽  
Jessica Rowlan ◽  
...  

Phytomedicine ◽  
2019 ◽  
Vol 65 ◽  
pp. 153089 ◽  
Author(s):  
Jiyeon Baek ◽  
Hyejeong Jeong ◽  
Youngwook Ham ◽  
Yang Hee Jo ◽  
Miri Choi ◽  
...  

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