BMP SIGNALLING DURING TENDON REPAIR IS SENSITIVE TO MECHANICAL LOADING. A ROLE FOR FOLLISTATIN?

Abstract

Healing of tendons is sensitive to mechanical loading, and the callus strength is reduced by ¾ after 14 days, if loading is prevented. Exogenous GDFs stimulate tendon healing. This response is influenced by loading: without loading, cartilage and bone formation is initiated. This suggests that BMP signalling is crucial during tendon healing, and that it is influenced by mechanical loading. We investigated if mechanical loading influences BMP signalling in intact and healing tendons, and how BMP gene expression changes during healing.

The Achilles tendon was transected in rats and left to heal. Half of the rats had one Achilles tendon unloaded by injection of Botox in the calf muscles. Ten tendons were analyzed before transection and for each of four time points. Gene expression for OP-1, GDF-5, -6, -7, Follistatin, Noggin, BMP-receptor 1b and BMP-receptor 2 were analysed with real-time PCR.

Loading had no detectable effects on intact tendons. During repair, loading decreased follistatin by more than half (p=0.0001), and increased GDF-5 (p=0.02). All genes showed changes during repair (p=0.0001), but the time sequences differed. GDF-5 and GDF-7 were generally more expressed than OP-1 and GDF-6. GDF-5 and GDF-7 were more expressed in normal tendons than during repair. Noggin was never detected.

Our results suggest that GDF-5 is specific for the mature tendon, and not much involved in repair. This contrasts to GDF-7, which is involved in both. OP-1 and GDF-6 seem to be involved in early healing. There was less expression of follistatin in loaded tendons during healing. The mechanosensitivity is likely of most importance at day 14 and 21 since the difference in strength between loaded and unloaded tendons is huge. An Anova with only these time points reveals effects of loading on GDF-5 and follistatin (p=0.0001 for both) and significant differences between the days for most variables.