Abstract
Osteoarthritis is a degenerative disease that results in changes in cartilage extracellular matrix. In vitro studies have shown that IL-1β inhibits cartilage formation in chondrocytes or MSCs undergoing chondrogenesis. In vivo, articular chondrocytes and bone marrow reside under hypoxic or physioxic environment (1–5% oxygen) and previous investigations have shown an increase in cartilage matrix proteins and reduced hypertrophy for MSC chondrogenesis, especially for MSCs expanded and differentiated under physioxia. Our hypothesis was that physioxic preconditioning reduces the effects of IL-1β inhibited MSC chondrogenesis.
Methods
Human MSCs (Male donors; aged 18–60 years, n = 6) were isolated from bone marrow and expanded for one passage and split into hyperoxic and physioxic MSC cultures, the latter conditions were isolated and expanded using a hypoxia controlled incubator. MSCs with or without physioxic preconditioning were aliquoted into wells of a 96-well cell culture plate in the presence of 10ng/ml TGF-β1 or in combination with either 0.1 or 0.5ng/ml IL-1ß and centrifuged to form pellets. Pellets were then differentiated under their isolation conditions. Pellets removed from culture on days 7, 14 and 21, were evaluated for wet weight, histological (DMMB staining, collagen type I, II, MMP-13 and TGF-β receptor II) and collagen type II ELISA analysis.
Results
Preconditioned MSCs demonstrated an enhanced collagen type II and GAG production undergoing chondrogenesis compared to hyperoxic pellets. In the presence of IL-1β, preconditioned MSCs reduced the inhibitory effect of IL-1ß compared to the equivalent conditions under hyperoxic, whereby there was a significant increase in wet weight, GAG and collagen type II production (p < 0.05). Furthermore, preconditioning MSCs had reduced collagen type X expression compared to hyperoxic cultures.
Discussion
Preconditioned MSCs had enhanced matrix formation compared to hyperoxic cultures. In the presence of IL-1ß, preconditioned MSCs and physioxic differentiation reduced the inhibitory effects of IL-1ß. This may be related to restoration of TGF-ß receptor II expression (anabolic effect) and reduced expression of catabolic enzyme, MMP-13. The latter enzyme is also involved in hypertrophy and so physioxia helps to partially restore articular cartilage phenotype.