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Research

TENDON COLLAGEN REMODELLING: NOVEL PATHWAY IMPLEMENTED BY TENDON STEM/PROGENITOR CELLS (TSPC)

European Orthopaedic Research Society (EORS) 24th Annual Meeting, 14–16 September 2016. Part 2.



Abstract

The exact pathways of collagen remodeling in tendon tissue are not well understood. Therefore, we have established an ex vivo 3D collagen gel-based system and we studied the remodeling capacity of two different TSPC lines from young, Y-TSPC and aged/degenerative, A-TSPC donors. Here, we specifically focused on investigating the involvement of integrin receptors in the remodeling process. Integrins are transmembrane receptors consisting of alpha (a) and beta (b) subunits, which form cell-to-matrix bonds, activate various pathways and thereby control cell proliferation, differentiation and survival.

Y- and A-TSPC were derived from human Achilles tendons and are fully described in Kohler et al. 2013. RT-PCR was used to assess the expression of collagen-binding integrins in the TSPC cultivated in collagen gels. Next, a1 and a11 integrins were silenced by stable lentiviral delivery of target-specific shRNA in the Y-TSPC. Control (con-shRNA), integrin (a1-shRNA) and integrin a11 (a11-shRNA) virus-containing supernatant was given for 24h and then cells were selected with 50 microg./ml zeocin for 10 days. The integrin knockdown (KD) efficiency was assessed by quantitative PCR and western blotting. Last, functional tests were carried out by time-lapse recording gel contraction of four cell groups (Y-TSPC+con, Y-TSPC+a1KD, Y-TSPC+a11KD, and A-TSPC).

Among the screened integrins we found that integrin a1 and a11 were significantly downregulated in A-TSPC with 3.8 and 5.6 folds, correspondingly. Therefore, to mimic the A-TSPC we carried out a gene KD of a1 and a11 in Y-TSPC. PCR and western blot clearly validated the efficient KD. Analyses of collagen contraction, revealed that Y-TSPC+a11KD significantly reduced collagen contractability comparable to A-TSPC. This indicated the indispensable role of this integrin in the signaling pathway of collagen matrix remodeling. In respect to integrin a1, we found that this receptor did not affect the contraction rate of Y-TSPC, which was similar to Y-TSPC+con.

To our knowledge we have now identified for the first time the critical role of a11 integrin receptor in tendon collagen remodeling, and a follow up analysis of its exact downstream cascade is on the way. Future efforts in deciphering how tendon matrix makeover is regulated can lead to innovation in preventive strategies for tendon degeneration.