Comprehensive phenotypic analysis of the Dp1Tyb mouse strain reveals a broad range of Down syndrome-related phenotypes

Eva Lana‐Elola; Heather Cater; Sheona Watson-Scales; Simon Greenaway; Jennifer Müller; Dorota Gibbins; Mihaela Nemes; Amy Slender; Tertius Hough; Piia Keskivali-Bond; Cheryl L. Scudamore; Eleanor Herbert; Gareth Banks; Helene Mobbs; Tara Canonica; Justin Tosh; Suzanna Noy; Miriam Llorian; Patrick M. Nolan; Julian L. Griffin; Mark Good; Michelle Simon; Ann‐Marie Mallon; Sara Wells; Elizabeth Fisher; Victor L. J. Tybulewicz

doi:10.1242/dmm.049157

Comprehensive phenotypic analysis of the Dp1Tyb mouse strain reveals a broad range of Down syndrome-related phenotypes

Eva Lana‐Elola(The Francis Crick Institute), Heather Cater(Mary Lyon Centre at MRC Harwell), Sheona Watson-Scales(The Francis Crick Institute), Simon Greenaway(Mary Lyon Centre at MRC Harwell), Jennifer Müller(The Francis Crick Institute), Dorota Gibbins(The Francis Crick Institute), Mihaela Nemes(The Francis Crick Institute), Amy Slender(The Francis Crick Institute), Tertius Hough(Mary Lyon Centre at MRC Harwell), Piia Keskivali-Bond(Mary Lyon Centre at MRC Harwell), Cheryl L. Scudamore(Mary Lyon Centre at MRC Harwell), Eleanor Herbert(Mary Lyon Centre at MRC Harwell), Gareth Banks(Mary Lyon Centre at MRC Harwell), Helene Mobbs(University of Cambridge), Tara Canonica(Cardiff University), Justin Tosh(The Francis Crick Institute), Suzanna Noy(National Hospital for Neurology and Neurosurgery), Miriam Llorian(The Francis Crick Institute), Patrick M. Nolan(Mary Lyon Centre at MRC Harwell), Julian L. Griffin(University of Cambridge), Mark Good(Cardiff University), Michelle Simon(Mary Lyon Centre at MRC Harwell), Ann‐Marie Mallon(Mary Lyon Centre at MRC Harwell), Sara Wells(Mary Lyon Centre at MRC Harwell), Elizabeth Fisher(National Hospital for Neurology and Neurosurgery), Victor L. J. Tybulewicz(The Francis Crick Institute)

Disease Models & Mechanisms

September 6, 2021

10.1242/dmm.049157

Cited by 32Open Access

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Abstract

Down syndrome (DS), trisomy 21, results in many complex phenotypes including cognitive deficits, heart defects and craniofacial alterations. Phenotypes arise from an extra copy of human chromosome 21 (Hsa21) genes. However, these dosage-sensitive causative genes remain unknown. Animal models enable identification of genes and pathological mechanisms. The Dp1Tyb mouse model of DS has an extra copy of 63% of Hsa21-orthologous mouse genes. In order to establish whether this model recapitulates DS phenotypes, we comprehensively phenotyped Dp1Tyb mice using 28 tests of different physiological systems and found that 468 out of 1800 parameters were significantly altered. We show that Dp1Tyb mice have wide-ranging DS-like phenotypes, including aberrant erythropoiesis and megakaryopoiesis, reduced bone density, craniofacial changes, altered cardiac function, a pre-diabetic state, and deficits in memory, locomotion, hearing and sleep. Thus, Dp1Tyb mice are an excellent model for investigating complex DS phenotype-genotype relationships for this common disorder.

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