Mice harboring a Hajdu Cheney Syndrome mutation are sensitized to osteoarthritis

Zanotti, Stefano; Yu, Jungeun; Bridgewater, David; Wolf, Jennifer Moriatis; Canalis, Ernesto

doi:10.1016/j.bone.2018.06.020

Cited by 18 publications

(19 citation statements)

References 58 publications

(66 reference statements)

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“…In an alternate murine model of HCS, an increased expression of interleukin 6 was reported in bone marrow cells, and this cytokine could contribute to the enhanced bone resorption observed [40]. Notch2 tm1.1Ecan mutant mice are sensitized to the development of osteoarthritis, a mechanism that may also involve an enhanced expression of interleukin 6 by the chondrocyte of HCS mutant mice [41]. …”

Section: Notch and Congenital Disorders Of The Skeletonmentioning

confidence: 99%

Notch in skeletal physiology and disease

Canalis

2018

Osteoporos Int

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Notch (Notch1 through 4) are transmembrane receptors that play a fundamental role in cell differentiation and function. Notch receptors are activated following interactions with their ligands in neighboring cells. There are five classic ligands termed Jagged (Jag)1 and Jag2 and Delta-like (Dll)1, Dll3, and Dll4. Recent work has established Notch as a signaling pathway that plays a critical role in the differentiation and function of cells of the osteoblast and osteoclast lineages and in skeletal development and bone remodeling. The effects of Notch are cell-context dependent, and the four Notch receptors carry out specific functions in the skeleton. Gain- and loss-of-function mutations of components of the Notch signaling pathway result in a variety of congenital disorders with significant craniofacial and skeletal manifestations. The Notch ligand Jag1 is a determinant of bone mineral density, and Notch plays a role in the early phases of fracture healing. Alterations in Notch signaling are associated with osteosarcoma and with the metastatic potential of carcinoma of the breast and of the prostate. Controlling Notch signaling could prove useful in diseases of Notch gain-of-function and in selected skeletal disorders. However, clinical data on agents that modify Notch signaling are not available. In conclusion, Notch signaling is a novel pathway that regulates skeletal homeostasis in health and disease.

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Section: Notch and Congenital Disorders Of The Skeletonmentioning

confidence: 99%

Notch in skeletal physiology and disease

Canalis

2018

Osteoporos Int

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“…Heterozygous Notch2 tm1.1Ecan mice exhibit cancellous and cortical bone osteopenia due to increased osteoclast number and bone resorption (5). Notch2 tm1.1Ecan mice also display a reallocation of B cells to the marginal zone of the spleen, shortening of the limbs, and sensitization to the development of osteoarthritis in destabilized joints (24,25). This is possibly because of increased expression of interleukin (IL) 6, revealing a propensity to an enhanced inflammatory response (24).…”

Section: Hajdu Cheney Syndrome (Hcs) Is Characterized By Craniofacialmentioning

confidence: 99%

“…Notch2 tm1.1Ecan mice also display a reallocation of B cells to the marginal zone of the spleen, shortening of the limbs, and sensitization to the development of osteoarthritis in destabilized joints (24,25). This is possibly because of increased expression of interleukin (IL) 6, revealing a propensity to an enhanced inflammatory response (24). Notch2 tm1.1Ecan does not exhibit apparent acro-osteolysis, and homozygous mice display craniofacial dysmorphism and newborn lethality.…”

Section: Hajdu Cheney Syndrome (Hcs) Is Characterized By Craniofacialmentioning

confidence: 99%

The Hajdu Cheney mutation sensitizes mice to the osteolytic actions of tumor necrosis factor α

Canalis

2019

Journal of Biological Chemistry

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“…In 2012, Zanotti et al [ 12 ] studied bone development in HCS, highlighting the importance of NOTCH in these processes and the fact that mutations on this gene lead to a loss of bone mass and acroosteolysis. In 2014, Zanotti et al [ 34 ] further managed to inactivate NOTCH signaling by crossing homozygotic mice with mice where the promoter osterix governs the expression of Cre, while in 2018 [ 35 ], they presented their mouse model of HCS ( NOTCH2 tm1.1Ecan) to study the link between the disease and osteoarthritis. Vollersen et al [ 36 ] developed a mouse model of HCS by introducing a pathogenic mutation (6272delT) on the murine gene NOTCH2 .…”

Section: Resultsmentioning

confidence: 99%

Hajdu–Cheney Syndrome: A Systematic Review of the Literature

Cortés-Martín

Díaz‐Rodríguez

Piqueras-Sola

et al. 2020

IJERPH

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Hajdu–Cheney syndrome (HCS) is a rare genetic disease that causes acroosteolysis and generalized osteoporosis, accompanied by a series of developmental skeletal disorders and multiple clinical and radiological manifestations. It has an autosomal dominant inheritance, although there are several sporadic non-hereditary cases. The gene that has been associated with Hajdu-Cheney syndrome is NOTCH2. The described phenotype and clinical signs and symptoms are many, varied, and evolve over time. As few as 50 cases of this disease, for which there is currently no curative treatment, have been reported to date. The main objective of this systematic review was to evaluate the results obtained in research regarding Hajdu–Cheney Syndrome. The findings are reported in accordance with the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines and were registered on the web PROSPERO under the registration number CRD42020164377. A bibliographic search was carried out using the online databases Orphanet, PubMed, and Scielo; articles from other open access sources were also considered. Finally, 76 articles were included, and after their analysis, we have obtained a series of hypotheses as results that will support further studies on this matter.

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Mice harboring a Hajdu Cheney Syndrome mutation are sensitized to osteoarthritis

Cited by 18 publications

References 58 publications

Notch in skeletal physiology and disease

Notch in skeletal physiology and disease

The Hajdu Cheney mutation sensitizes mice to the osteolytic actions of tumor necrosis factor α

Hajdu–Cheney Syndrome: A Systematic Review of the Literature

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