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Orthopaedic Proceedings
Vol. 102-B, Issue SUPP_6 | Pages 123 - 123
1 Jul 2020
J.Dixon S Beaucage K Nagao M Lajoie G Veras M Fournier D Holdsworth D Bailey C Hammond J Séguin C
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Equilibrative nucleoside transporter 1 (ENT1) transfers nucleosides, such as adenosine, across plasma membranes. We reported previously that mice lacking ENT1 (ENT1-KO) exhibit progressive ectopic calcification of spinal tissues, including the annulus fibrosus (AF) of intervertebral discs (J Bone Miner Res 28:1135–49, 2013, Bone 90:37–49, 2016). Our purpose was twofold: (1) to compare ectopic calcifications in ENT1-KO mice with those in human DISH, and (2) to investigate the molecular pathways underlying pathological calcification in ENT1-KO mice.

Studies were performed with age-matched wild-type (WT) and ENT1-KO mice, as well as human cadaveric vertebral columns meeting radiographic criteria for DISH. Mouse and human specimens were scanned using high-resolution, micro-computed tomography (micro-CT). As well, some samples were decalcified and processed for histological assessment. Calcified lesions in selected specimens were examined using energy dispersive X-ray spectroscopy (EDX) and X-ray diffraction (XRD). To investigate molecular changes associated with ectopic calcification, we isolated AF tissue from thoracic intervertebral discs of WT and ENT1-KO mice. Tissues were then subjected to transcriptomic and proteomic analyses.

Micro-CT of ENT1-KO mice revealed ectopic calcification of spinal tissues, first appearing in the cervical-thoracic region and extending caudally with advancing age. Histological examination of calcified lesions in mice revealed accumulations of amorphous, eosinophilic, acellular material in paraspinal ligaments and entheses, intervertebral discs, mandibular symphysis, and sternocostal articulations. There was no evidence of inflammation associated with these lesions. EDX of calcified lesions revealed a high content of calcium and phosphorus in a molar ratio of ∼1.6, with hydroxyapatite detected by micro-XRD. Ten human cadaveric spines (three females and seven males, mean age 81 years) that met radiographic criteria for DISH were analysed in detail by micro-CT. Remarkable heterogeneity in the density and morphology of ectopic calcifications was observed. Analyses of calcifications by EDX and XRD again yielded a calcium/phosphorus ratio of ∼1.6 and a crystalline diffraction pattern matching hydroxyapatite. Histological examination of human lesions revealed regions of mature ossification and other areas of irregular amorphous calcification that resembled lesions in ENT1-KO mice. Microarray analysis of AF tissue from WT and ENT1-KO mice showed extensive dysregulation of transcription in affected tissues. Cell cycle-associated transcripts were the most affected, including the E2f family of transcription factors and proliferating cell nuclear antigen. In addition, expression of genes involved in the regulation of mineralization and bone development were dysregulated. Proteomic analyses confirmed transcriptomic changes and revealed alterations in known modulators of biomineralization such as matrix Gla-protein.

Many of the characteristics of ectopic calcification in ENT1-KO mice resemble those of DISH in humans. Human lesions were found to be heterogeneous with regions of pathological ossification and amorphous calcification, the latter resembling lesions in the mouse model. Our studies of the molecular events associated with ectopic calcification in ENT1-KO mice may provide insights into the pathogenesis of DISH in humans. ENT1-KO mice may also be useful for evaluating therapeutics for the prevention of ectopic calcification in DISH and related disorders.


Orthopaedic Proceedings
Vol. 90-B, Issue SUPP_I | Pages 39 - 39
1 Mar 2008
Theodoropoulos J Harvey E Séguin C Passeriello A Kassis J Busque L
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Avascular necrosis is poorly understood. The etiological factors have not been fully delineated. This disease process had a huge cost impact on the health system due to surgical treatment. Patients with avascular necrosis seen at a single institution underwent DNA extraction and analysis, coagulation-related analysis and buccal smears with DNA analysis. In this patient group 60% tested positive for at least one thrombophilic or hypofibrinolysis factor. We make recommendations depending on the defect in the cascade, allowing for potential non-surgical management of osteonecrosis in patients undergoing therapy with known antagonistic medications (i.e. corticosteroids).

The etiology and pathogenesis of nontraumatic AVN need to be better elucidated.

Our study identifies the potential association of thrombophilic and hypofibrinolytic factors and osteonecrosis of the hip, particularly genetic markers as identified through DNA markers

The significance of this study:

Osteonecrosis is a devastating musculoskeletal condition;

Tends to occur in young people;

Treatments are suboptimal mostly palliative and not curative;

currently unable to identify persons at risk for AVN;

cannot reverse the process once AVN has developed.

60% of patients had at least one tested thrombophilic or hypofibrinolysis factor positive. Most patients never had a thrombotic event.

Genetic screening, multiple hematological paramteres were tested on patients with avascular necrosis.

hypercoagulability plays a role in the development of AVN of the hip, mainly at the microvascular level;

an impairment at the level of the fibrinolytic system through high PAI-1 levels is a potential mechanism responsible for the development of AVN;

a genetic predisposition is implicated, at least in part, in the development of AVN of the hip.

most patietns had a multifactorial problem and genetic screening and blood testing will lead to recommended therapy (medical) for those patients at risk.