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find Keyword "Tendon stem cells" 5 results
  • INFLUENCE OF INHIBITION OF ACTIN POLYMERIZATION ON ADIPOGENIC DIFFERENTIATION OF RAT Achilles-DERIVED TENDON STEM CELLS IN VITRO

    ObjectiveTo investigate the effect of cytoskeleton modification on the adipogenic differentiation of rat Achilles-derived tendon stem cells (TSCs) in vitro. MethodsTSCs were isolated from the tendon tissue of male Sprague Dawley rats (aged 3 weeks) by enzymatic digestion method and cultured for 3 passages. After the 3rd passage cells were cultured with DMEM medium containing 15% fetal bovine serum and cytochalasin D (CYD) at the concentrations of 0, 50, 100, 500, and 1 000 ng/mL, the cell survival condition and morphology changes were observed by inverted phase contrast microscope, the cytoskeleton was observed through fibrous actin (F-actin) staining, and the ratio of F-actin/soluble globular actin (G-actin) was detected and calculated through Western blot. According to the above results, the effective concentration of CYD was selected and used for next experiments. After TSCs were cultured for 3 and 7 days respectively with adipogenic induction media (induction group), adipogenic induction media containing CYD (CYD+induction group), ordinary medium (ordinary group), and ordinary medium containing CYD (CYD+ordinary group), the real-time quantitative PCR (qRT-PCR) and Western blot were carried out to measure the mRNA and protein expressions of adipogenic differentiation-related markers, including peroxisome proliferator-activated receptor γ (PPARγ), 1ipoprotein lipase (LPL), and fatty acid binding protein (aP2). ResultsThe final CYD concentration of 100 ng/mL can inhibit effectively G-actin polymerization into F-actin, but could not affect TSCs survival, which was used for next experiments. qRT-PCR and Western blot suggested that the mRNA expressions of PPARγ, LPL, and aP2 and the protein expressions of PPARγ and aP2 were increased significantly in the CYD+induction group at 3 and 7 days when compared with the induction group (P<0.05). In the CYD+ordinary group, there still was a significant increase in the mRNA expressions of PPARγ, LPL, and aP2 when compared with the ordinary group (P<0.05). ConclusionInhibition of F-actin polymerization can increase adipogenic differentiation of rat Achilles-derived TSCs in vitro, and cytoskeleton modification is a pre-requisite for TSCs differentiation into adipocytes, which might have important implications for the mechanism research of tendinopathy.

    Release date:2016-08-25 10:18 Export PDF Favorites Scan
  • EFFECT OF MECHANICAL TENSION ON EXPRESSIONS OF RhoA/Rho ASSOCIATED PROTEIN KINASES IN RAT TENDON STEM CELLS IN VITRO/

    ObjectiveTo investigate the effect of different mechanical tensions on the expressions of RhoA/Rho associated protein kinases (ROCK) in rat tendon stem cells (TSCs). MethodsTSCs were isolated from the tendon tissue of male Sprague Dawley rats (aged, 2-3 months; weighing, 200-250 g) by enzymatic digestion method and cultured for 2-3 passages, then seeded on micro groovdishes. The 4% (4% stretch group) and 8% (8% stretch group) mechanical stretching was performed for 4 hours every day at 1 Hz. After 1, 2, and 3 days, the protein and mRNA expressions of RhoA and ROCK were measured by Western blot and real-time quantitative PCR. The cell proliferation was measured by cell counting kit 8. The cells were not stretched as control group. ResultsThe TSCs at passage 2 showed a cobble-stone shape and aggregation growth; TSCs seeded on micro groovdishes showed random growth, and the cells grew along the stretching direction after mechanical stretching. The mRNA expressions of RhoA and ROCK in control group, 4%, and 8% stretch groups showed an increasing tendency at 1, 2, and 3 days, showing significant difference between groups (P<0.05). The protein expressions of RhoA and ROCK in 4% and 8% stretch groups were similar to those in control group at 1 day (P>0.05), but the expressions in 4% and 8% stretch groups showed an increasing tendency at 2 and 3 days, which were significantly higher than those in control group (P<0.05). The cell proliferation of 8% stretch group was significantly lower than that of 4% stretch group and control group at each time point (P<0.05), but no significant difference was found between 4% stretch group and control group (P>0.05). ConclusionThe expressions of RhoA and ROCK of rat TSCs are positively correlated with stretch intensity. So RhoA/ROCK may be an important molecule in TSCs after mechanical stretching.

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  • EFFECTS OF TRANSFORMING GROWTH FACTOR β3 AT DIFFERENT CONCENTRATIONS ON DIFFERENTIATION OF TEENDON STEM CELLS IN VITRO

    ObjectiveTo investigate the effect of transforming growth factor β3 (TGF-β3) at different concentrations on the differentiation of rat Achilles-derived tendon stem cells (TSCs) in vitro. MethodsTSCs were isolated from the tendon tissue of male Sprague Dawley rats (aged 3 weeks) by enzymatic digestion method and cultured for 3 passages. The TSCs were stimulated with TGF-β3 at the concentrations of 5.0, 2.5, 1.0, and 0 ng/mL. At 1, 3, and 5 days, the mRNA expressions of tendogenic differentiation related genes[collagen type Ⅰ,tenascin C (TNC), tenomodulin (TNMD), scleraxis (Scx)], osteogenic differentiation related genes[Runt related transcription factor 2 (Runx2) and alkaline phosphatase (ALP)], chondrogenic differentiation genes (Sox9 and collagen type Ⅱ),and adipogenic differentiation genes[AP2 and peroxisome proliferator-activated receptor γ (PPARγ)] were measured by real-time quantitative PCR (qRT-PCR). ResultsTSCs could differentiated in different directions after treated with TGF-β3 at different concentrations at different time points. TGF-β3 was able to induce TSCs differentiated into tenocytes, which was related to the concentration and time of duration, and the two factors have interaction. Stimulation of TGF-β3 at low concentration and for short time could inhibit non-tendogenic differentiation of TSCs, but at high concentration and for long time, TGF-β3 enhanced TSCs differented into osteocytes or chondrocytes. ConclusionEffects of TGF-β3 on TSCs differentiation are complicated and depend on the concentration and time of duration, which may be a key factor between tendogenic and non-tendogenic differentiations of TSCs.

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  • ISOLATION OF RAT PATELLAR TENDON STEM CELLS AND EFFECT OF MECHANICAL STRETCHING ON Sox-9 EXPRESSION

    ObjectiveTo isolate the tendon stem cells (TSCs) from rat patellar tendon and to investigate the effect of mechanical stretching on the expression of Sox-9. MethodsTSCs were isolated from Sprague Dawley rat (12 weeks old) patellar tendon by collagenase digestion and low density culture. The cell colony morphology and number were observed by crystal violet staining;the cell morphology was observed by inverted phase contrast microscope, and the immunophenotypes of mesenchymal stem cells (MSCs) were determined by flow cytometry. The TSCs at passage 3 was given the mechanical stretching at 4%, 0.17 Hz for 4 hours and 24 hours in the experimental group, and cells without stretching was used as control. The Sox-9 gene and protein expressions were detected by real-time fluorescence quantitative PCR and Western blot. ResultsPrimary cells showed clonal growth and star shape;after subculture, cells at passage 1 showed fibroblast-like shape. The cells formed cell colonies after 7 days;the expressions were positive for CD29, CD44, and CD90 and negative for CD45. The result of real-time fluorescence quantitative PCR showed that Sox-9 gene was down-regulated at 4 hours after mechanical stretching compared with control (P<0.05), and up-regulated at 24 hours after mechanical stretching when compared with control group (P<0.05). The result of Western blot showed that Sox-9 protein expression was lower at 4 hours after stretching, but higher at 24 hours after mechanical stretching than that in control group (P<0.05). ConclusionThe rat patellar TSCs can be isolated successfully, and mechanical stretching inhibits the Sox-9 expression, but the inhibited effect might stimulate the Sox-9 expression after the mechanical stretching effect disappears.

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  • Effect of cyclic stretch on expression of c-fos gene in rat Achilles-derived tendon stem cells

    Objective To investigate whether mechanical stretch stimulation affects the expression of the immediate early gene c-fos mRNA in rat Achilles-derived tendon stem cells (TSCs)in vitro. Methods TSCs were isolated from the Achilles tendons of 8 weeks old male Sprague Dawley rats by enzymatic digestion method and cultured for 3 passages. The TSCs were stimulated by a uniaxial cyclic stretching loading system under the condition of 1 Hz, respectively with 4% or 8% stretch intensity for 0, 5, 15, 30, 60, and 120 minutes. At each time point, TSCs were collected to detect c-fos mRNA expressions and to find the best time-point Tmax by real-time fluorescence quantitative PCR. Then, TSCs were simulated with 2%, 4%, 6%, 8%, or 12% stretch intensity for Tmax to observe the relative expressions of c-fos mRNA under different stretch intensities. Next, TSCs were stretched for 0, 5, or 15 minutes respectively and followed by incubation at relax status up to Tmax to observe the changes of c-fos mRNA expressions after short period stimulation. Finally, TSCs were stimulated with 4% or 8% stretch intensity respectively for 0, Tmax, or 120 minutes to detect the expressions of the tenogenic differentiation related genes [collagen type I, tenomodulin (TNMD)], the osteogenic differentiation related genes [runt related transcription factor 2 (Runx2), distal-less homeobox 5 (Dlx5)], and the adipogenic differentiation related gene [fatty acid binding protein 4 (FABP4)]. Results Under 4% or 8% stretch intensity, the relative expressions of c-fos mRNA significantly increased at 15 minutes (P<0.05), reached the maximum at 30 minutes (P<0.05), and returned to baseline at 60 minutes (P>0.05) when compared with expression at 0 minute. Therefore, Tmax was 30 minutes. The stretch intensity of 2% was enough to cause the expression of c-fos mRNA at 30 minutes, and the expression was significantly higher under the stretch intensity of 6%, 8%, and 12% than 2% and 4% (P<0.05). Even for a short period stimulation of 5 minutes, c-fos mRNA expression could still significantly increase at 30 minutes (P<0.05). The relative expressions of differentiation related genes at 30 and 120 minutes showed no significant difference when compared with the expression at 0 minute under 4% stretch intensity (P>0.05); but the relative expression of Runx2 gene significantly increased at 30 minutes, and the relative expressions of collagen type I, TNMD, Dlx5, and Runx2 increased at 120 minutes under 8% stretch intensity (P<0.05). Conclusion Mechanical stretch stimulation can affect the relative expression of the immediate early gene c-fos mRNA of rat Achilles-derived tendon stem cellsin vitro, and there is time- and intensity-dependence. It is suggested that the mechanical stimulation with different time or intensity may affect the differentiation of TSCs at early stage. This study is meaningful for the further study on TSCs intracellular mechanical signal transfer mechanism.

    Release date:2017-02-15 09:26 Export PDF Favorites Scan
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