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Literature DB >> 26206885

Rescue of the abnormal skeletal phenotype in Ts65Dn Down syndrome mice using genetic and therapeutic modulation of trisomic Dyrk1a.

Joshua D Blazek¹, Irushi Abeysekera¹, Jiliang Li¹, Randall J Roper².

Abstract

Trisomy 21 causes skeletal alterations in individuals with Down syndrome (DS), but the causative trisomic gene and a therapeutic approach to rescue these abnormalities are unknown. Individuals with DS display skeletal alterations including reduced bone mineral density, modified bone structure and distinctive facial features. Due to peripheral skeletal anomalies and extended longevity, individuals with DS are increasingly more susceptible to bone fractures. Understanding the genetic and developmental origin of DS skeletal abnormalities would facilitate the development of therapies to rescue these and other deficiencies associated with DS. DYRK1A is found in three copies in individuals with DS and Ts65Dn DS mice and has been hypothesized to be involved in many Trisomy 21 phenotypes including skeletal abnormalities. Return of Dyrk1a copy number to normal levels in Ts65Dn mice rescued the appendicular bone abnormalities, suggesting that appropriate levels of DYRK1A expression are critical for the development and maintenance of the DS appendicular skeleton. Therapy using the DYRK1A inhibitor epigallocatechin-3-gallate improved Ts65Dn skeletal phenotypes. These outcomes suggest that the osteopenic phenotype associated with DS may be rescued postnatally by targeting trisomic Dyrk1a.

Entities: Chemical Disease Gene Species

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Substances：

Year: 2015 PMID： 26206885 DOI： 10.1093/hmg/ddv284

Source DB: PubMed Journal: Hum Mol Genet ISSN： 0964-6906 Impact factor: 6.150

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Cited

24 in total

1. Epigallocatechin-3-gallate (EGCG) consumption in the Ts65Dn model of Down syndrome fails to improve behavioral deficits and is detrimental to skeletal phenotypes.

Authors: Megan Stringer; Irushi Abeysekera; Jared Thomas; Jonathan LaCombe; Kailey Stancombe; Robert J Stewart; Karl J Dria; Joseph M Wallace; Charles R Goodlett; Randall J Roper
Journal: Physiol Behav Date: 2017-05-03

2. Genomic mechanisms for the evolution of flightlessness in steamer ducks.

Authors: Julia A Clarke
Journal: Nature Date: 2019-08 Impact factor: 49.962

Review 3. Influence of allelic differences in Down syndrome.

Authors: Randall J Roper; Laura Hawley; Charles R Goodlett
Journal: Prog Brain Res Date: 2019-10-24 Impact factor: 2.453

4. Usage of and attitudes about green tea extract and Epigallocathechin-3-gallate (EGCG) as a therapy in individuals with Down syndrome.

Authors: Rachel Long; Montana L Drawbaugh; Charlene M Davis; Charles R Goodlett; Jane R Williams; Randall J Roper
Journal: Complement Ther Med Date: 2019-07-02 Impact factor: 2.446

5. Influence of prenatal EGCG treatment and Dyrk1a dosage reduction on craniofacial features associated with Down syndrome.

Authors: Samantha D McElyea; John M Starbuck; Danika M Tumbleson-Brink; Emily Harrington; Joshua D Blazek; Ahmed Ghoneima; Katherine Kula; Randall J Roper
Journal: Hum Mol Genet Date: 2016-11-15 Impact factor: 6.150

6. Down syndrome mouse models have an abnormal enteric nervous system.

Authors: Ellen M Schill; Christina M Wright; Alisha Jamil; Jonathan M LaCombe; Randall J Roper; Robert O Heuckeroth
Journal: JCI Insight Date: 2019-04-18

7. Differential effects of Epigallocatechin-3-gallate containing supplements on correcting skeletal defects in a Down syndrome mouse model.

Authors: Irushi Abeysekera; Jared Thomas; Taxiarchis M Georgiadis; Alycia G Berman; Max A Hammond; Karl J Dria; Joseph M Wallace; Randall J Roper
Journal: Mol Nutr Food Res Date: 2016-02-11 Impact factor: 5.914