Proteoglycan synthesis rate as a novel method to measure blood-induced cartilage degeneration in non-haemophilic and haemophilic rats

Astrid E. Pulles*, Kåre K. Vøls, Kristine R. Christensen, Katja Coeleveld, Axel K. Hansen, Lize F.D. van Vulpen, Maj Petersen, Simon C. Mastbergen, Kirstine Roepstorff, Roger E.G. Schutgens, Mads Kjelgaard-Hansen, Floris P.J.G. Lafeber

*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

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Abstract

Introduction: Haemophilic animal models are used to study blood-induced cartilage damage, but quantitative and sensitive outcome measures are needed. Aim: To develop a novel quantitative method for detecting early cartilage degeneration in a haemophilic rat model of blood-induced joint damage. Methods: The 35Sulphate incorporation (35SO4 2− assay) was applied to tibial and patellar cartilage of wild-type rats to quantify baseline proteoglycan synthesis and to evaluate the effect of 4-day blood exposure in vitro. Next, haemarthrosis was induced in 39 FVIII-deficient rats and characterized by changes in knee joint diameter and development of bone pathology (using micro-CT). Four- and 16-day posthaemarthrosis proteoglycan synthesis rate (PSR) was assessed using the 35SO4 2− assay, with the contralateral knee as control. Results: In vitro, a decrease in PSR in tibial and patellar cartilage was demonstrated following blood exposure. In vivo, joint diameter and development of bone pathology confirmed successful induction of haemarthrosis. In the blood-exposed knee, tibial and patellar PSR was inhibited 4 and 16 days after induced haemarthrosis. Interestingly, at day 16 the proteoglycan synthesis in the contralateral knee was also inhibited to an extent correlating with that of the blood-exposed knee. Conclusion: For the first time, early changes in cartilage matrix synthesis upon blood exposure were quantified with the 35SO4 2− assay in a haemophilic rat model, establishing this assay as a novel method to study blood-induced cartilage damage.

OriginalsprogEngelsk
TidsskriftHaemophilia
Vol/bind26
Udgave nummer3
Sider (fra-til)e88-e96
ISSN1351-8216
DOI
StatusUdgivet - 2020

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© 2020 The Authors. Haemophilia published by John Wiley & Sons Ltd

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