Pleiotropic effects of trisomy and pharmacologic modulation on structural, functional, molecular, and genetic systems in a Down syndrome mouse model

Author:

Llambrich Sergi1ORCID,Tielemans Birger1,Saliën Ellen1,Atzori Marta2,Wouters Kaat3,Van Bulck Vicky3,Platt Mark4,Vanherp Laure1,Gallego Fernandez Nuria5,Grau de la Fuente Laura5,Poptani Harish4,Verlinden Lieve6,Himmelreich Uwe1,Croitor Anca1,Attanasio Catia2,Callaerts-Vegh Zsuzsanna3,Gsell Willy1,Martínez-Abadías Neus5ORCID,Velde Greetje Vande1ORCID

Affiliation:

1. Biomedical MRI, Department of Imaging and Pathology, KU Leuven, Leuven, Belgium

2. Department of Human Genetics, KU Leuven, Leuven, Belgium

3. Laboratory of Biological Psychology, KU Leuven, Leuven, Belgium

4. Centre for Preclinical Imaging, Department of Molecular and Clinical Cancer Medicine, University of Liverpool, Liverpool, UK

5. Departament de Biologia Evolutiva, Ecologia i Ciències Ambientals (BEECA), Facultat de Biologia, Universitat de Barcelona (UB), Spain

6. Clinical and Experimental Endocrinology (CEE), KU Leuven, Leuven, Belgium

Abstract

Down syndrome (DS) is characterized by skeletal and brain structural malformations, cognitive impairment, altered hippocampal metabolite concentration and gene expression imbalance. These alterations were usually investigated separately, and the potential rescuing effects of green tea extracts enriched in epigallocatechin-3-gallate (GTE-EGCG) provided disparate results due to different experimental conditions. We overcame these limitations by conducting the first longitudinal controlled experiment evaluating genotype and GTE-EGCG prenatal chronic treatment effects before and after treatment discontinuation. Our findings revealed that the Ts65Dn mouse model reflected the pleiotropic nature of DS, exhibiting brachycephalic skull, ventriculomegaly, reduced bone mineral density, neurodevelopmental delay, hyperactivity, and impaired long-term memory with altered hippocampal metabolite concentration and gene expression. However, Ts65Dn mice showed milder phenotypes than previously described, suggesting a drift of the mouse model. GTE-EGCG treatment modulated most systems simultaneously but did not rescue DS phenotypes. On the contrary, the treatment exacerbated trisomic phenotypes including body weight, tibia microarchitecture, neurodevelopment, adult cognition, and metabolite concentration, not supporting the therapeutic use of a prenatal chronic treatment. Our results highlight the importance of longitudinal experiments assessing the co-modulation of multiple systems throughout development when characterizing preclinical models in complex disorders and evaluating the pleiotropic effects and general safety of pharmacological treatments.

Publisher

eLife Sciences Publications, Ltd

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