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GROWTH DIFFERENTIATING FACTOR 6 SIGNALLING IN MESENCHYMAL STEM CELL POPULATIONS: IMPLICATIONS FOR INTERVERTEBRAL DISC REGENERATION

The Society for Back Pain Research (SBPR), Northampton, England, November 2017



Abstract

Background

Currently, there is a focus on the development of cell based therapies to treat intervertebral disc (IVD) degeneration, particularly for regenerating/repairing the central region, the nucleus pulposus (NP). Recently, we demonstrated that GDF6 promotes NP-like differentiation in mesenchymal stem cells (MSCs). However, bone marrow- (BM-MSCs) and adipose- (Ad-MSCs) showed differential responses to GDF6, with Ad-MSCs adopting a more NP-like phenotype. Here, we investigated GDF6 signalling in BM-MSCs and Ad-MSCs, with the aim to improve future IVD stem cell therapies.

Methods

GDF6 receptor expression in patient-matched BM-MSCs and Ad-MSCs (N=6) was profiled through western blot and immunocytochemistry (ICC). GDF6 signal transduction was investigated through stimulation with 100 ng ml−1 GDF6 for defined time periods. Subsequently smad1/5/9 phosphorylation and alternative non-smad pathway activation (phospho-p38; phospho-Erk1/2) was analysed (western blot, ELISA). Their role in inducing NP-like gene expression in Ad-MSCs was examined through pathway specific inhibitors.

Results

Western blot and ICC established that BMPR profiles differed between MSC populations; specifically, BMPR2 (a GDF6 receptor) expression, was significantly higher in Ad-MSCs (p<0.05). ELISA and western blot analysis showed that smad1/5/9 phosphorylation was significantly higher in Ad-MSCs following GDF6 stimulation (p<0.05). GDF6 stimulation also phosphorylated p38 and Erk1/2 pathways. Blocking of both smad and non-smad pathways resulted in variation of GDF6 induced NP-like gene expression.

Conclusions

The upregulation of BMPR2 in Ad-MSCs and corresponding differences in smad1/5/9 and non-smad pathway phosphorylation in response to GDF6 indicates an enhanced discogenic potential in Ad-MSCs, suggesting they may be more suitable for GDF6 mediated cellular IVD regeneration.

Conflicts of interest

No conflicts of interest

Sources of funding

We would like to acknowledge UKRMP Acellular Hub, MRC, NIHR Musculoskeletal BRU and The Rosetrees Trust for funding this research.


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