| Title: | Skeletal Deficits in Male and Female down Syndrome Model Mice Arise Independent of Normalized Dyrk1a Expression in Osteoblasts |
| Author(s): | Thomas JR; Sloan K; Cave K; Wallace JM; Roper RJ; |
| Address: | "Department of Biology, Indiana University-Purdue University Indianapolis, Indianapolis, IN 46202, USA. Department of Biomedical Engineering, Indiana University-Purdue University Indianapolis, Indianapolis, IN 46202, USA" |
| ISSN/ISBN: | 2073-4425 (Electronic) 2073-4425 (Linking) |
| Abstract: | "Trisomy 21 (Ts21) causes alterations in skeletal development resulting in decreased bone mass, shortened stature and weaker bones in individuals with Down syndrome (DS). There is a sexual dimorphism in bone mineral density (BMD) deficits associated with DS with males displaying earlier deficits than females. The relationships between causative trisomic genes, cellular mechanisms, and influence of sex in DS skeletal abnormalities remain unknown. One hypothesis is that the low bone turnover phenotype observed in DS results from attenuated osteoblast function, contributing to impaired trabecular architecture, altered cortical geometry, and decreased mineralization. DYRK1A, found in three copies in humans with DS, Ts65Dn, and Dp1Tyb DS model mice, has been implicated in the development of postnatal skeletal phenotypes associated with DS. Reduced copy number of Dyrk1a to euploid levels from conception in an otherwise trisomic Ts65Dn mice resulted in a rescue of appendicular bone deficits, suggesting DYRK1A contributes to skeletal development and homeostasis. We hypothesized that reduction of Dyrk1a copy number in trisomic osteoblasts would improve cellular function and resultant skeletal structural anomalies in trisomic mice. Female mice with a floxed Dyrk1a gene (Ts65Dn,Dyrk1a(fl/wt)) were mated with male Osx-Cre(+) (expressed in osteoblasts beginning around E13.5) mice, resulting in reduced Dyrk1a copy number in mature osteoblasts in Ts65Dn,Dyrk1a(+/+/Osx-Cre) P42 male and female trisomic and euploid mice, compared with littermate controls. Male and female Ts65Dn,Dyrk1a(+/+/+) (3 copies of DYRK1A in osteoblasts) and Ts65Dn,Dyrk1a(+/+/Osx-Cre) (2 copies of Dyrk1a in osteoblasts) displayed similar defects in both trabecular architecture and cortical geometry, with no improvements with reduced Dyrk1a in osteoblasts. This suggests that trisomic DYRK1A does not affect osteoblast function in a cell-autonomous manner at or before P42. Although male Dp1Tyb and Ts65Dn mice exhibit similar skeletal deficits at P42 in both trabecular and cortical bone compartments between euploid and trisomic mice, female Ts65Dn mice exhibit significant cortical and trabecular deficits at P42, in contrast to an absence of genotype effect in female Dp1Tyb mice in trabecular bone. Taken together, these data suggest skeletal deficits in DS mouse models and are sex and age dependent, and influenced by strain effects, but are not solely caused by the overexpression of Dyrk1a in osteoblasts. Identifying molecular and cellular mechanisms, disrupted by gene dosage imbalance, that are involved in the development of skeletal phenotypes associated with DS could help to design therapies to rescue skeletal deficiencies seen in DS" |
| Keywords: | "Animals Bone Density Disease Models, Animal Down Syndrome/genetics/*physiopathology Female Gene Dosage Gene Expression Male Mice Muscle, Skeletal/diagnostic imaging/*physiopathology Osteoblasts/metabolism Protein Serine-Threonine Kinases/*genetics/metabol;" |
| Notes: | "MedlineThomas, Jared R Sloan, Kourtney Cave, Kelsey Wallace, Joseph M Roper, Randall J eng R15 HD090603/HD/NICHD NIH HHS/ Research Support, N.I.H., Extramural Switzerland 2021/11/28 Genes (Basel). 2021 Oct 28; 12(11):1729. doi: 10.3390/genes12111729" |
