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General Orthopaedics

NEW ORTHOTOPIC MOUSE MODELS OF HUMAN CHONDROSARCOMA

Australian Orthopaedic Association Limited (AOA)



Abstract

Chondrosarcoma responds poorly to adjuvant therapy and therefore, new targeted therapy is required. Animal models have been utilised to test therapeutic candidates, however clinically relevant, orthotopic models are lacking. The aim of this study was to develop such a model.

In vitro: two human chondrosarcoma cell lines, JJ012 and FS090, were compared with respect to proliferation, colony formation, invasion, MMP-2 and MMP-9 secretion, osteoclastogenesis, endothelial tube stimulation, and expression of the angiogenic factor VEGF, and the anti-angiogenic factor RECK on western blotting. In vivo: 20,000 cells (JJ012 or FS090) were injected either into the intramedullary canal of the mouse tibia (n=5 for each cell line), or into the tibial periosteum (n=5 for each cell line). Animals were measured, and x-rayed weekly. Once euthanised, tibias and lungs were preserved, embedded and sectioned to determine the presence of tumour and lung metastases.

In vitro: compared with FS090, JJ012 demonstrated significantly higher proliferative capacity at both day two and day four (p=0.017, and p=0.01). JJ012 had a significantly greater ability to invade Matrigel with an average number of 812.5 invading cells, versus 140.8 FS090 cells (p=0.0005). JJ012 readily formed colonies in collagen I, while FS090 formed none. JJ012 conditioned medium stimulated endothelial tube formation and osteoclastogenesis with a greater potency than FS090 conditioned medium. In vivo: tumours formed in the intratibial and periosteal groups injected with JJ012, whilst no mice injected with FS090 cells developed discernable tumours on physical inspection, caliper measurement or histological section. Periosteal tumours grew to three times the non-injected limb size by seven weeks, whereas intratibial injected limbs required 10 weeks to achieve the same extent of tumour growth. All JJ012 periosteal tumours resulted in lung micrometastases, while only 2/4 JJ012 intratibial tumours demonstrated metastases. Lung metastases stained positive with Von Kossa and alizarin red stains, indicating a tendency for calcification, which is similar to metastases in the human disease. Sectioned tumour tissue demonstrated features of grade II-III chondrosarcoma. Similarities with the human disease were also noted on the X-ray, including endosteal scalloping, and cortical thickening.

Both intratibial and periosteal JJ012 models replicate the site, morphology, and many behavioural characteristics of human chondrosarcoma. Local tumour invasion of bone and spontaneous lung metastasis offer valuable assessment tools to test the potential of novel agents for future chondrosarcoma therapy.