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Spine

ELUCIDATION OF THE HUMAN FOETAL NOTOCHORDAL CELL PHENOTYPE

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



Abstract

Background

While the human embryonic, foetal and juvenile intervertebral disc (IVD) is composed of large vacuolated notochordal cells, these morphologically distinct cells are lost with skeletal maturity being replaced by smaller nucleus pulpous cells. Notochordal cells are thought to be fundamental in maintaining IVD homeostasis and, hence, their loss in humans may be a key initiator of degeneration, leading ultimately to back pain. Therefore, it is essential to understand the human notochordal cell phenotype to enable the development of novel biological/regenerative therapies.

Methods

CD24+ notochordal cells and CD24- sclerotomal cells were sorted from enzymatically-digested human foetal spines (7.5–14 WPC, n=5) using FACS. Sorting accuracy was validated using qPCR for known notochordal markers and Affymetrix cDNA microarrays performed. Differential gene expression was confirmed (qPCR) and Interactive Pathway Analysis (IPA) performed.

Results

CD24+ve notochordal cells (mean 10.4%) and CD24-ve sclerotomal cells (mean 60.9% CD24-) were successfully sorted. Higher expression of notochordal markers CD24 and brachyury was identified in CD24+ve cells. Hierarchical clustering and PCA mapping revealed distinct differences in the gene expression profile of CD24+ and CD24- cells. Top notochordal markers were CD24, STMN2. RTN1, PRPH and CXCL12. IPA identified IL-1 receptor antagonist (IL-1RN) and noggin as master regulators of notochordal cell phenotype.

Conclusions

This study has, for the first time, defined human foetal notochordal cell phenotype and identified important pathways and upstream regulators. In particular, IL-1RN and noggin are of interest as master regulators of notochordal cell function, suggesting vital roles for these molecules in IVD development and homeostasis.

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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