HOMING OF MESENCHYMAL STEM CELLS INTO DEGENERATIVE INTERVERTEBRAL DISC: EFFECT ON DISC CELL SURVIVAL

Background and Purpose

Intervertebral disc (IVD) degeneration is a prominent cause of low back pain. IVD cells expressing angiopoietin-1 receptor Tie2 represent a progenitor cell population which decreases with progression of IVD degeneration. Homing of mesenchymal stem cells (MSCs) is a physiological mechanism aiming to enhance the regenerative capacity of the IVD. The purpose of this study was to assess the effect of MSC homing on the Tie2 positive IVD progenitor cell population, the IVD cell viability, and the proliferative phenotype of the IVD cells.

Methods and Results

Human MSCs were isolated from bone marrow aspirates and labelled with fluorescent dye. Whole IVDs with endplates were harvested from bovine tails; MSCs were placed on the endplates. Human traumatic, degenerative and healthy IVD tissues were obtained from patients and organ donors. MSCs were added onto tissue samples. After 5 days, IVD cells were isolated. Percentages of Tie2 positive, DAPI positive (dead) and Ki-67 positive (proliferative) IVD cells were determined.

MSC homing or co-culture significantly increased the proportion of Tie2 positive progenitor IVD cells in bovine and 7/10 human IVDs, decreased the fraction of dead IVD cells in bovine and 7/10 human IVDs, and induced a proliferative phenotype in bovine and 5/6 human IVDs.

Conclusion

Stimulation of bovine and human IVDs by MSC homing resulted in an enhanced population of Tie2 positive IVD progenitor cells, induced a proliferative response and reduced IVD cell death. Hence, the interaction with recruited MSCs may contribute to an improved survival of IVD cells, helping to reverse or slow down an ongoing degenerative process.

Conflicts of interest: The authors declare no conflicts of interest.

Sources of funding: AO Foundation and AOSpine International