Abstract
BackgroundTissue engineered and regenerative approaches for treating tendon injuries are challenged by the limited information on the cellular signaling pathways driving tenogenic differentiation of stem cells. Members of the transforming growth factor (TGF) β family, particularly TGFβ2, play a role in tenogenesis, which may proceed via Smad-mediated signaling. However, recent evidence suggests some aspects of tenogenesis may be independent of Smad signaling, and other pathways potentially involved in tenogenesis are understudied. Here, we examined the role of Akt/mTORC1/P70S6K signaling in early TGFβ2-induced tenogenesis of mesenchymal stem cells (MSCs) and evaluated TGFβ2-induced tenogenic differentiation when Smad3 is inhibited.MethodsMouse MSCs were treated with TGFβ2 to induce tenogenesis, and Akt or Smad3 signaling was chemically inhibited using the Akt inhibitor, MK-2206, or the Smad3 inhibitor, SIS3. Effects of TGFβ2 alone and in combination with these inhibitors on the activation of Akt signaling and its downstream targets mTOR and P70S6K were quantified using western blot analysis, and cell morphology was assessed using confocal microscopy. Levels of the tendon marker protein, tenomodulin, were also assessed.ResultsTGFβ2 alone activated Akt signaling during early tenogenic induction. Chemically inhibiting Akt prevented increases in tenomodulin and attenuated tenogenic morphology of the MSCs in response to TGFβ2. Chemically inhibiting Smad3 did not prevent tenogenesis, but appeared to accelerate it. MSCs treated with both TGFβ2 and SIS3 produced significantly higher levels of tenomodulin at 7 days and morphology appeared tenogenic, with localized cell alignment and elongation. Finally, inhibiting Smad3 did not appear to impact Akt signaling, suggesting that Akt may allow TGFβ2-induced tenogenesis to proceed during disruption of Smad3 signaling.ConclusionsThese findings show that Akt signaling plays a role in TGFβ2-induced tenogenesis and that tenogenesis of MSCs can be initiated by TGFβ2 during disruption of Smad3 signaling. These findings provide new insights into the signaling pathways that regulate tenogenic induction in stem cells.
Highlights
Tendons, the collagenous musculoskeletal tissues that connect muscle to bone to enable movement, are frequently injured and heal poorly, leading to long-term loss of function [1]
The P-Akt to Akt ratio remained lower in MK-2206treated groups, and P-Akt was not detected in MK2206 + TGFβ2 treated cells at 7 d (Fig. 1f) and 14 d (Fig. 1g)
Cells treated with MK2206 + TGFβ2 had a significantly higher ratio of P-Smad3 to Smad2/3 at 60 min (p < 0.05; Fig. S3A), levels of activated Smad3 were similar to controls by 24 h (Fig. S3B)
Summary
The collagenous musculoskeletal tissues that connect muscle to bone to enable movement, are frequently injured and heal poorly, leading to long-term loss of function [1]. The limited understanding of the cell signaling pathways involved in tenogenesis (differentiation toward the tendon lineage) is a challenge for tissue engineering and regenerative approaches. The same study showed that when Smad, the downstream effector of Smad and 3, was knocked out in mouse embryonic fibroblasts via adenovirus/Cre-mediated deletion, proliferation was disrupted, but the cells still produced scleraxis, indicating early tenogenesis was able to proceed [13]. Tissue engineered and regenerative approaches for treating tendon injuries are challenged by the limited information on the cellular signaling pathways driving tenogenic differentiation of stem cells. We examined the role of Akt/mTORC1/P70S6K signaling in early TGFβ2-induced tenogenesis of mesenchymal stem cells (MSCs) and evaluated TGFβ2-induced tenogenic differentiation when Smad is inhibited
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