Abstract
Background
Intervertebral disc degeneration is implicated as a major cause of chronic lower back pain. Current therapies for lower back pain are aimed purely at relieving the symptoms rather than targeting the underlying aberrant cell biology. As such focus has shifted to development of cell based alternatives. Notochordal cells are progenitors to the adult nucleus pulposus that display therapeutic potential. However, notochordal cell phenotype and suitable culture conditions for research or therapeutic application are poorly described. This study aims to develop a suitable culture system to allow comprehensive study of the notochordal phenotype.
Methods & Results
Porcine notochordal cells were isolated from 6 week post natal discs using dissection and enzymatic digestion and cultured in vitro under different conditions: (1)DMEM vs αMEM (2)laminin-521, fibronectin, gelatin and untreated tissue culture plastic (3)2% 02 vs normoxia (4)αMEM (300 mOsm/L) vs αMEM (400 mOsm/L). Notochordal cells were cultured in alginate beads as a control. Adherence, cell viability, morphology and expression of known notochordal markers (CD24, KRT8, KRT18, KRT19 and T) were assessed throughout the culture period. Use of αMEM media and laminin-521 coated surfaces displayed the greatest cell adherence, viability and retention of notochordal cell morphology and gene expression, which was further enhanced through culture in hypoxia and hyperosmolar media mimicking the intervertebral disc niche.
Conclusions
Assessment of the therapeutic potential of notochordal cells is potentially valuable to development of a cell based therapy for chronic lower back pain. Our model has provided a system in which notochordal cells can be studied extensively.
Conflicts of Interest: None
Funding obtained from the Henry Smith Charity, London
