Lysyl Oxidase Production by Murine C3H10T1/2 Mesenchymal Stem Cells Is Increased by TGFβs and Differentially Modulated by Mechanical Stimuli.

Stem cells and development Pub Date : 2024-07-01 Epub Date: 2024-06-20 DOI:10.1089/scd.2023.0295
Nicholas M Pancheri, Allison J Ellingson, Colin R Marchus, Vibhav Durgesh, Tabitha Verhage, Nicholas Yensen, Nathan R Schiele
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Abstract

Tendons are frequently injured and have limited regenerative capacity. This motivates tissue engineering efforts aimed at restoring tendon function through strategies to direct functional tendon formation. Generation of a crosslinked collagen matrix is paramount to forming mechanically functional tendon. However, it is unknown how lysyl oxidase (LOX), the primary mediator of enzymatic collagen crosslinking, is regulated by stem cells. This study investigates how multiple factors previously identified to promote tendon formation and healing (transforming growth factor [TGF]β1 and TGFβ2, mechanical stimuli, and hypoxia-inducible factor [HIF]-1α) regulate LOX production in the murine C3H10T1/2 mesenchymal stem cell (MSC) line. We hypothesized that TGFβ signaling promotes LOX activity in C3H10T1/2 MSCs, which is regulated by both mechanical stimuli and HIF-1α activation. TGFβ1 and TGFβ2 increased LOX levels as a function of concentration and time. Inhibiting the TGFβ type I receptor (TGFβRI) decreased TGFβ2-induced LOX production by C3H10T1/2 MSCs. Low (5 mPa) and high (150 mPa) magnitudes of fluid shear stress were applied to test impacts of mechanical stimuli, but without TGFβ2, loading alone did not alter LOX levels. Low loading (5 mPa) with TGFβ2 increased LOX at 7 days greater than TGFβ2 treatment alone. Neither HIF-1α knockdown (siRNA) nor activation (CoCl2) affected LOX levels. Ultimately, results suggest that TGFβ2 and appropriate loading magnitudes contribute to LOX production by C3H10T1/2 MSCs. Potential application of these findings includes treatment with TGFβ2 and appropriate mechanical stimuli to modulate LOX production by stem cells to ultimately control collagen matrix stiffening and support functional tendon formation.

小鼠 C3H10T1/2 间充质干细胞产生的赖氨酰氧化酶受 TGFβs 的影响而增加,并受机械刺激的不同调节。
肌腱经常受伤,再生能力有限。这就促使组织工程学努力通过指导功能性肌腱形成的策略来恢复肌腱的功能。交联胶原基质的生成对于形成具有机械功能的肌腱至关重要。然而,赖氨酰氧化酶(LOX)是酶促胶原交联的主要介质,干细胞如何调节赖氨酰氧化酶还不得而知。本研究探讨了先前确定的促进肌腱形成和愈合的多种因子(转化生长因子(TGF)β1和TGFβ2、机械刺激和低氧诱导因子(HIF)-1α)如何调节小鼠C3H10T1/2间充质干细胞(MSC)系的LOX产生。我们假设,TGFβ信号促进C3H10T1/2间充质干细胞的LOX活性,而LOX活性受机械刺激和HIF-1α激活的调节。TGFβ1和TGFβ2会增加LOX水平,这是浓度和时间的函数。抑制 TGFβ I 型受体(TGFβRI)可减少 TGFβ2 诱导 C3H10T1/2 间充质干细胞产生 LOX。低(5 mPa)和高(150 mPa)量级的流体剪切应力用于测试机械刺激的影响,但在没有 TGFβ2 的情况下,单独加载不会改变 LOX 的水平。与单独使用 TGFβ2 相比,使用 TGFβ2 的低负荷(5 mPa)可在 7 天后增加 LOX。HIF-1α 敲除(siRNA)或激活(CoCl2)均不影响 LOX 水平。最终,研究结果表明,TGFβ2和适当的负载量有助于C3H10T1/2间充质干细胞产生LOX。这些发现的潜在应用包括用TGFβ2和适当的机械刺激处理干细胞,以调节LOX的产生,最终控制胶原基质僵化,支持功能性肌腱的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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