Abstract
Low back pain (LBP) is the leading cause of disability worldwide. Recently, treatment of the intervertebral disc (IVD) with stem cells has been used for the treatment of degenerate discs (IDD) which cause at least the 40% of LBP cases. Despite pain reduction, follow-up in clinical studies have not shown an improvement in the structural integrity of IVD. A valid alternative could be the use of progenitor disc cells (notocordal cells, NC) or of their precursors. Mesendoderm progenitor cells (MEPC) have the ability to replicate and differentiate toward NC. In this preliminary study we evaluated in a preclinical large animal IDD model the viability and NC differentiation of MEPC derived from induced pluripotent stem cells (iPSC).
MEPC, derived from iPSC and developed during the iPSpine project (# 825925), were thawed and plated on laminin for 24h and labeled with PKH26.
Two adult sheep were subjected to nucleotomy of five lumbar discs for the induction of IDD. After 5 weeks, 3 of the 5 degenerate discs were treated with MEPC at 3 different doses (low, medium and high). One sheep was sacrificed after 7 days and the other after 30 days from the treatment injection procedure. Clinical parameters were collected to evaluate the safety of treatment. Discs were paraffin embedded and analysed using histological techniques. Survival (PKH26), proliferation (PCNA), notocordal cell differentiation (Brachyury, Cytokeratin 8/18/19, Sox9, Foxa2) and endodermal differentiation (Sox17) were evaluated.
After the injection of the cells, both sheep lost about 20% of body weight. The analysis showed that only in discs treated with the highest dose the PKH26 stained cells resulted alive after 30 days from the procedure. These cells turn out to be:
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in proliferation (PCNA)
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positive for Brachyury, cytokeratin 8/18/19 and Foxa2
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a small percentage positive for SOX17.
This preliminary study shows that MEPC, derived from iPSC and injected into ovine discs degenerated by nucleotomy, are able to survive 30 days from treatment and differentiate within the disc predominantly towards the notocordal phenotype.
