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Research

PTH 1–34 AFFECTS THE MIGRATION AND DIFFERENTIATION OF YOUNG AND OVARECTOMISED BONE MARROW-DERIVED RAT STEM CELLS

The British Orthopaedic Research Society (BORS) Annual Conference, September 2016



Abstract

Intermittent parathyroid hormone (iPTH 1–34) increases bone formation via modelling and remodelling mechanisms and as such is used to treat osteoporosis. The actions of iPTH on mesenchymal stem cell (MSCs) may underpin a further treatment option.

We isolated bone marrow derived MSCs from young (WT) and ovarectomized senile (OVX) rats, investigating the effect of intermittent and continuous PTH administration on migration to SDF-1, proliferation and osteogenic differentiation.

MSCs were harvested from the femora of 6–10week old WT rats and 10–13month old OVX rats. Cells were cultured with 25,50 and 100nmMol of PTH 1–34 added to osteogenic media either continuously or intermittently for 6hours in every 72hour cycle. ALP and Alizarin Red assessed osteogenic differentiation, and Alamar Blue- proliferation. Cells were seeded in a Boyden chamber to quantify SDF-1 migration. A student t-test was used to analyse results, and a p value<0.05 considered significant.

ALP and Alizarin Red were significantly increased for WT and OVX groups at 50nmMol of iPTH. Continuous administration at all concentrations reduced calcium phosphate deposition by day 21 in all groups.

In comparison to cells cultured in osteogenic media, 50nmMol of iPTH led to significantly higher ALP and Alizarin Red measurements up to days 10 and 7 respectively (figure 1). There was no change in proliferation between the groups, and PTH had no effect (figure 2.)

WT MSCs not only had improved osteogenic differentiation, but also showed increased migration to SDF-1 in comparison to OVX groups. iPTH led to further increases in migration of both OVX and WT cells.

iPTH increases the osteogenic differentiation and migration of MSCs from both young and ovarectomised rats, though this effect is not dose dependent. Ultimately, the role of iPTH on MSCs may lead to improved bone formation and cell homing capacity-particularly in the context of osteoporosis.