High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome

Nele Vollersen; Irm Hermans-Borgmeyer; Kerstin Cornils; Boris Fehse; Tim Rolvien; Ioanna Triviai; Anke Jeschke; Ralf Oheim; Michael Amling; Thorsten Schinke; Timur Alexander Yorgan

doi:10.1002/jbmr.3283

High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome

Standard

High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome. / Vollersen, Nele; Hermans-Borgmeyer, Irm; Cornils, Kerstin ; Fehse, Boris ; Rolvien, Tim; Triviai, Ioanna; Jeschke, Anke; Oheim, Ralf ; Amling, Michael ; Schinke, Thorsten ; Yorgan, Timur Alexander.

in: J BONE MINER RES, Jahrgang 33, Nr. 1, 01.2018, S. 70-83.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Vollersen, N, Hermans-Borgmeyer, I, Cornils, K , Fehse, B , Rolvien, T, Triviai, I, Jeschke, A, Oheim, R , Amling, M , Schinke, T & Yorgan, TA 2018, 'High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome', J BONE MINER RES, Jg. 33, Nr. 1, S. 70-83. https://doi.org/10.1002/jbmr.3283

APA

Vollersen, N., Hermans-Borgmeyer, I., Cornils, K., Fehse, B., Rolvien, T., Triviai, I., Jeschke, A., Oheim, R., Amling, M., Schinke, T., & Yorgan, T. A. (2018). High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome. J BONE MINER RES, 33(1), 70-83. https://doi.org/10.1002/jbmr.3283

Vancouver

Vollersen N, Hermans-Borgmeyer I, Cornils K , Fehse B , Rolvien T, Triviai I et al. High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome. J BONE MINER RES. 2018 Jan;33(1):70-83. https://doi.org/10.1002/jbmr.3283

Bibtex

@article{18487726ba6e4ee496b9e16befad51e6,

title = "High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome",

abstract = "Hajdu-Cheney syndrome (HCS) is a rare autosomal-dominant disorder primarily characterized by acro-osteolysis and early-onset osteoporosis. Genetically, HCS is caused by nonsense or deletion mutations within exon 34 of the NOTCH2 gene, resulting in premature translational termination and production of C-terminally truncated NOTCH2 proteins that are predicted to activate NOTCH2-dependent signaling. To understand the role of Notch2 in bone remodeling, we developed a mouse model of HCS by introducing a pathogenic mutation (6272delT) into the murine Notch2 gene. By μCT and undecalcified histology, we observed generalized osteopenia in two independent mouse lines derived by injection of different targeted embryonic stem (ES) cell clones, yet acro-osteolysis did not occur until the age of 52 weeks. Cellular and dynamic histomorphometry revealed a high bone turnover situation in Notch2+/HCS mice, since osteoblast and osteoclast indices were significantly increased compared with wild-type littermates. Whereas ex vivo cultures failed to uncover cell-autonomous gain-of-functions within the osteoclast or osteoblast lineage, an unbiased RNA sequencing approach identified Tnfsf11 and Il6 as Notch-signaling target genes in bone marrow cells cultured under osteogenic conditions. Because we further observed that the high-turnover pathology of Notch2+/HCS mice was fully normalized by alendronate treatment, our results demonstrate that mutational activation of Notch2 does not directly control osteoblast activity but favors a pro-osteoclastic gene expression pattern, which in turn triggers high bone turnover. {\textcopyright} 2017 American Society for Bone and Mineral Research.",

keywords = "Journal Article",

author = "Nele Vollersen and Irm Hermans-Borgmeyer and Kerstin Cornils and Boris Fehse and Tim Rolvien and Ioanna Triviai and Anke Jeschke and Ralf Oheim and Michael Amling and Thorsten Schinke and Yorgan, {Timur Alexander}",

year = "2018",

month = jan,

doi = "10.1002/jbmr.3283",

language = "English",

volume = "33",

pages = "70--83",

journal = "J BONE MINER RES",

issn = "0884-0431",

publisher = "Wiley-Blackwell",

number = "1",

}

RIS

TY - JOUR

T1 - High bone turnover in mice carrying a pathogenic Notch2-mutation causing Hajdu-Cheney syndrome

AU - Vollersen, Nele

AU - Hermans-Borgmeyer, Irm

AU - Cornils, Kerstin

AU - Fehse, Boris

AU - Rolvien, Tim

AU - Triviai, Ioanna

AU - Jeschke, Anke

AU - Oheim, Ralf

AU - Amling, Michael

AU - Schinke, Thorsten

AU - Yorgan, Timur Alexander

PY - 2018/1

Y1 - 2018/1

N2 - Hajdu-Cheney syndrome (HCS) is a rare autosomal-dominant disorder primarily characterized by acro-osteolysis and early-onset osteoporosis. Genetically, HCS is caused by nonsense or deletion mutations within exon 34 of the NOTCH2 gene, resulting in premature translational termination and production of C-terminally truncated NOTCH2 proteins that are predicted to activate NOTCH2-dependent signaling. To understand the role of Notch2 in bone remodeling, we developed a mouse model of HCS by introducing a pathogenic mutation (6272delT) into the murine Notch2 gene. By μCT and undecalcified histology, we observed generalized osteopenia in two independent mouse lines derived by injection of different targeted embryonic stem (ES) cell clones, yet acro-osteolysis did not occur until the age of 52 weeks. Cellular and dynamic histomorphometry revealed a high bone turnover situation in Notch2+/HCS mice, since osteoblast and osteoclast indices were significantly increased compared with wild-type littermates. Whereas ex vivo cultures failed to uncover cell-autonomous gain-of-functions within the osteoclast or osteoblast lineage, an unbiased RNA sequencing approach identified Tnfsf11 and Il6 as Notch-signaling target genes in bone marrow cells cultured under osteogenic conditions. Because we further observed that the high-turnover pathology of Notch2+/HCS mice was fully normalized by alendronate treatment, our results demonstrate that mutational activation of Notch2 does not directly control osteoblast activity but favors a pro-osteoclastic gene expression pattern, which in turn triggers high bone turnover. © 2017 American Society for Bone and Mineral Research.

AB - Hajdu-Cheney syndrome (HCS) is a rare autosomal-dominant disorder primarily characterized by acro-osteolysis and early-onset osteoporosis. Genetically, HCS is caused by nonsense or deletion mutations within exon 34 of the NOTCH2 gene, resulting in premature translational termination and production of C-terminally truncated NOTCH2 proteins that are predicted to activate NOTCH2-dependent signaling. To understand the role of Notch2 in bone remodeling, we developed a mouse model of HCS by introducing a pathogenic mutation (6272delT) into the murine Notch2 gene. By μCT and undecalcified histology, we observed generalized osteopenia in two independent mouse lines derived by injection of different targeted embryonic stem (ES) cell clones, yet acro-osteolysis did not occur until the age of 52 weeks. Cellular and dynamic histomorphometry revealed a high bone turnover situation in Notch2+/HCS mice, since osteoblast and osteoclast indices were significantly increased compared with wild-type littermates. Whereas ex vivo cultures failed to uncover cell-autonomous gain-of-functions within the osteoclast or osteoblast lineage, an unbiased RNA sequencing approach identified Tnfsf11 and Il6 as Notch-signaling target genes in bone marrow cells cultured under osteogenic conditions. Because we further observed that the high-turnover pathology of Notch2+/HCS mice was fully normalized by alendronate treatment, our results demonstrate that mutational activation of Notch2 does not directly control osteoblast activity but favors a pro-osteoclastic gene expression pattern, which in turn triggers high bone turnover. © 2017 American Society for Bone and Mineral Research.

KW - Journal Article

U2 - 10.1002/jbmr.3283

DO - 10.1002/jbmr.3283

M3 - SCORING: Journal article

C2 - 28856714

VL - 33

SP - 70

EP - 83

JO - J BONE MINER RES

JF - J BONE MINER RES

SN - 0884-0431

IS - 1

ER -