Abstract
The current treatment for osteoporosis such as bisphosphonates inhibits the catabolic activity of osteoclasts and subsequent bone resorption, but does not increase bone formation. There is therefore interest in using anabolic factors such as stem cells to augment fracture repair. The poor bone formation in postmenopausal women could be due to poor retention and function of Mesenchymal stem cells (MSCs) resulting into delayed unions. Another factor associated with fracture healing is the retention and migration of stem cells to the site of injury (1–3). The aim of this study was to isolate stem cells from osteopenic rats and investigate and compare the CD marker expression, proliferation, migration, osteogenic and adipogenic differentiation. The hypothesis of this study is that the migration of MSCs from young, adult and ovariectomised (OVX) rats will have different proliferation, differentiation and migratory abilities.
Ovariectomy was performed in 6–9 month old Wistar rats and osteopenia developed over a 4 month post-op period. MSCs were harvested from the femora of young, adult and osteopenic Wistar rats. Proliferation of the these MSCs from the three group of rats was measured using Alamar blue, osteogenic differentiation was measured using ALP expression at day 0, 7, 14 and 21 and alizarin red at day 21. Adipogenic differentiation was measured at day 7, 14 and 21 using Oil red O. Cells were incubated in Boyden chambers to quantify their migration towards SDF1. For analysis, the number of cells migrating across the membrane was expressed as a percentage of the cells remaining on the upper membrane surface. Data was analysed using a Student t-test where p values < 0.05 were considered significant.
The stem cells from all 3 groups of rats expressed on average the same amount of CD29 (>90%), CD90 (>96%), CD34 (<5%) and CD45 (approx 10%). The proliferation rate measured by Alamar blue normalised against DNA was also similar at day 3, 7, 10 and 14. However, interestingly the migration and differentiation ability was significantly different between the MSCs from the 3 groups of rats. The young MSCs were not only better at differentiating into bone and fat as well, but they also migrated significantly more towards SDF1. The migration of SDF-1 doubled with young rats compared to the adult rats (p = 0.023) and it was four times higher when compared to cells isolated from OVX rats (p = 0.013).
MSCs from OVX rats are similar to MSCs from young rats. However when induced to turn into bone, fat and migrate towards SDF1, young MSCs are significantly more responsive than MSCs from OVX and adult control rats. The poor homing ability and differentiation of the stem cells and their retention may result in a reduction in bone formation leading to delayed union in fractures of osteoporotic patients(4).