Conclusions
Here, we show that IL-1rn(-/-) mice develop spinal abnormalities that resemble characteristic features associated with human disc degeneration. The current evidence is consistent with a role for IL-1 in the pathogenesis of IVD degeneration. The imbalance between IL-1 and IL-1Ra which is observed during human IVD degeneration could therefore be a causative factor in the degeneration of the IVD, and as such, is an appropriate pharmaceutical target for inhibiting degeneration.
Methods
Histological staining and immunohistochemistry was performed on BALB/c IL-1rn(+/+) and IL-1rn(-/-) mice to examine degeneration and to localise and detect IL-1, matrix metalloproteinases (MMP)3, MMP7, a disintigrin and MMP with thrombospondin motifs (ADAMTS)4 protein production. In addition, IVD cells were isolated using collagenase and proliferation potential determined.
Results
IL-1rn(-/-) knockout mice displayed typical features of human disc degeneration: loss of proteoglycan and normal collagen structure and increased expression of matrix degrading enzymes: MMP3; MMP7 and ADAMTS4. Histological grade of degeneration increased in IL-1rn(-/-) mice which was more evident within older mice. In addition IVD cells isolated from IL-1rn(-/-) mice displayed reduced proliferation potential. Conclusions: Here, we show that IL-1rn(-/-) mice develop spinal abnormalities that resemble characteristic features associated with human disc degeneration. The current evidence is consistent with a role for IL-1 in the pathogenesis of IVD degeneration. The imbalance between IL-1 and IL-1Ra which is observed during human IVD degeneration could therefore be a causative factor in the degeneration of the IVD, and as such, is an appropriate pharmaceutical target for inhibiting degeneration.