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Non-invasive monitoring of alternative splicing outcomes to identify candidate therapies for myotonic dystrophy type 1.


ABSTRACT: During drug development, tissue samples serve as indicators of disease activity and pharmacodynamic responses. Reliable non-invasive measures of drug target engagement will facilitate identification of promising new treatments. Here we develop and validate a novel bi-transgenic mouse model of myotonic dystrophy type 1 (DM1) in which expression of either DsRed or GFP is determined by alternative splicing of an upstream minigene that is mis-regulated in DM1. Using a novel in vivo fluorescence spectroscopy system, we show that quantitation of the DsRed/GFP ratio provides an accurate estimation of splicing outcomes in muscle tissue of live mice that nearly doubles throughput over conventional fluorescence imaging techniques. Serial in vivo spectroscopy measurements in mice treated with a C16 fatty acid ligand conjugated antisense (LICA) oligonucleotide reveal a dose-dependent therapeutic response within seven days, confirm a several-week duration of action, and demonstrate a two-fold greater target engagement as compared to the unconjugated parent oligonucleotide.

SUBMITTER: Hu N 

PROVIDER: S-EPMC6286378 | biostudies-literature | 2018 Dec

REPOSITORIES: biostudies-literature

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Non-invasive monitoring of alternative splicing outcomes to identify candidate therapies for myotonic dystrophy type 1.

Hu Ningyan N   Antoury Layal L   Baran Timothy M TM   Mitra Soumya S   Bennett C Frank CF   Rigo Frank F   Foster Thomas H TH   Wheeler Thurman M TM  

Nature communications 20181207 1


During drug development, tissue samples serve as indicators of disease activity and pharmacodynamic responses. Reliable non-invasive measures of drug target engagement will facilitate identification of promising new treatments. Here we develop and validate a novel bi-transgenic mouse model of myotonic dystrophy type 1 (DM1) in which expression of either DsRed or GFP is determined by alternative splicing of an upstream minigene that is mis-regulated in DM1. Using a novel in vivo fluorescence spec  ...[more]

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