Human mesenchymal stem cells differentiate into osteoblasts

AIM:To investigate the differentiation from human mesenchymal stem cells (hMSC) into osteoblasts. METHODS:MSC were separated from human marrow with Ficoll-Paque reagent and expanded in cuture medium. To detect the surface antigens, The labeled cells were analysed on a FACScan flow cytometer. hMSC were induced to differentiate from mesenchymal stem cells into osteoblasts with dexamethasone, vitamin C, β-GP. Cell morphology、AP activity、calcium deposition and osteopontin were detected. P10 MSC were compared to P3 MSC in the tendency of osteoblastic differentiation. RESULTS:The cultured MSC comprised a single phenotypic population and displayed a fibroblast-like morphology. hMSC showed a strong self-renewal capacity. After primary culture, approximately (5-6)×10⁵ cells were obtained. These expanded attached MSC were uniformaly positive for CD29,CD44,CD59,CD105,CD166 and didn’t express CD11a, CD14, CD33, CD34, CD45, CD38, CD80, CD86, CD117. After osteoblasts induction, the cells changed from spindle-shape to cuboidal and polygonal in cell morphology. The AP activity increased gradually and many scattered calcium nodes were observed. The expression of osteopontin was positive. CONCLUSION:hMSC can be induced to differentiate into osteoblasts.     

Adult human mesenchymal stem cell differentiates into adipocytes

AIM:To investigate the differentiation from human mesenchymal stem cells (hMSC) to adipocytes.METHODS: hMSC were separated from rib marrow and expanded in culture medium. To detect the surface antigens, the labeled cells were analysed on a FACScan flow cytometer. hMSC were induced with dexamethasone, insulin, 1-methy1-3-isobutylxanthine and indomethacin which acted as adipocyte differentiation inducer. The cells were stained with Oil Red O. The number of adipocytes were counted on a phase-contrast microscope.RESULTS: hMSC were expanded as undifferentiated cells in culture for more than 5 passages. The isolated cultured MSC comprised a single phenotypic population and displayed a fibroblast-like morphology. These expanded, attached MSC were uniformly positive for CD29, CD44, CD90, CD105, CD166 and didn't express CD14, CD34, CD45, CD11a. After induced with induction medium, lipid vacuoles were first detectable within the cells at 48 hours. Two weeks later, more than 85% MSC differentiated into adipocytes which displayed a perinuclear accumlation of lipid vacuoles, as detected by Oil Red O. CONCLUSION:hMSC can be induced to differentiate into adipocytes.     

Human mesenchymal stem cells differentiate into neuron-like cells with Tanshinone II A

AIM:To investigate the differentiation from human mesenchymal stem cells(hMSC) into neuron-like cells with Tanshinone II A.METHODS:hMSC were separated from rib marrow with Ficoll-Paque reagent and expanded in culture medium. To detect the surface antigens, the labeled cells were analysed on a FACScan flow cytometer to determine the effect of the capacity of proliferation and differentiation of the mesenchymal stem cells with FGF-2. hMSC were induced to differentiate into neurons with DMEM Tanshinone II A. Neuron-specific enolase(NSE), neurofilament(NF), Nestin, glial fibrillary acaidic protein(GFAP) were detected by immunohistochemistry.RESULTS:hMSC were expanded as undifferentiated cells in culture for more than 15 passages. The isolated cultured MSC comprised a single phenotypic population and displayed a fibroblast-like morphology. These expanded attached MSC were uniformly positive for CD29, CD44, CD90, CD105, CD166 and didn't express CD11a, CD14, CD34, CD38, CD45, CD80, CD86. FGF-2 have special effect on low denisity MSCs. Simple methods with Tanshinone II A induced hMSC to exhibit a neuronal phenotype, expressing NSE, NF-M, Nestin at 5 hours. But the neuron-like cells didn't express the glial astrocyte marker GFAP.CONCLUSION:hMSC can be induced to differentiate into neurons with Tanshinone II A.     

The roles of ERK signaling pathway in osteogenic differentiation of rat MSCs promoted by quercetin

AIM:To study the roles of extracellular signal-regulated kinase(ERK) signal pathway in the process of osteogenic differentiation in rat mesenchymal stem cells(MSCs) promoted by quercetin(QUE). METHODS:The optimal concentration of QUE for promoting osteogenic differentiation of rat MSCs was determined by MTT and alkaline phosphatase(ALP) detection. The activity of ALP was detected by the ALP detection kit. The expression of bone Gla protein(BGP) and collagen typeⅠ(ColⅠ) was observed by ELISA analysis. MSCs were exposed to QUE at optimal concentration with or without ERK1/2 inhibitor PD98059. Non-phosphorylated and phosphorylated expression of ERK1/2 was analyzed by Western blotting. The mRNA expression of transforming growth factor β₁(TGF-β₁), bone morphogenetic protein 2(BMP-2) and core binding factor α1(Cbfα1) was measured by fluorescence quantitative PCR. RESULTS:QUE at concentrations of 0.1 μmol/L, 1 μmol/L and 10 μmol/L induced the expression of ALP in MSCs in a dose-dependent manner, and also promoted MSCs proliferation. The expression levels of ALP, BGP and ColⅠwere higher in QUE group, and was lower in PD89059 group than those in control group. Compared with control group, the level of phosphorylated ERK1/2, and the mRNA expression of TGF-β₁, BMP-2 and Cbfα1 increased in QUE group. The mRNA expression of TGF-β₁, BMP-2 and Cbfα1 in QUE+PD98059 group decreased as compared with QUE group. CONCLUSION:QUE promotes osteogenic differentiation of MSCs by activating ERK signaling pathway.     

Human mesenchymal stem cells differentiate into neuron-like cells by increase in intracellular cyclic AMP

AIM: To investigate the differentiation from human mesenchymal stem cells(hMSC) into neuron-like cells by the increase in intracellular cyclic AMP. METHODS: hMSC were separated from human marrow with Ficoll-Paque reagent and expanded in culture medium. hMSC were induced to differentiate into neurons with Forskolin and 3-isobutyl-1-methyl-xanthine (IBMX). Neuron-specific enolase(NSE), neurofilament(NF), glial fibrillary acaidic protein(GFAP) were detected by immunohistochemistry. RESULTS: hMSC were expanded as undifferentiated cells in culture for more than10passages. Forskolin/IBMX can induce hMSC to exhibit a neuronal phenotype, expressing NSE and NF-M in 5 hours. But the neuron-like cells didn't express the glial astrocyte marker GFAP. CONCLUSION: hMSC can be induced to differentiate into neurons by increase in the intracellular cAMP.     

Akebia saponin D promotes differentiation of bone marrow mesenchymal stem cells into osteoblasts through MAPK signaling pathways

AIM:To explore the role of Akebia saponin D(ASD) in the differentiation of rat bone marrow-derived mesenchymal stem cells(BMSCs) into osteoblasts. METHODS:The rat BMSCs were cultured using routine methods. The effects of ASD on the differentiation of MSCs into osteoblasts were observed. The p38 mitogen-activated protein kinase(p38 MAPK) inhibitor SB203580 and extracellular signal-regulated kinase(ERK) inhibitor PD098059 were used to evaluate the mechanisms. The activity of alkaline phosphate(ALP) and content of osteocalcin(OC) were assayed during differentiation. The mRNA expression of osteoprotegerin(OPG) and receptor activator of nuclear factor-κB ligand(RANKL) was determined by real-time fluorescence quantitative PCR. The activity of p38 MAPK and ERK was measured by Western blotting. RESULTS:Six days after treatment with ASD, the mRNA expression of OPG significantly increased, while the mRNA level of RANKL significantly decreased in induced cells. ASD increased the activity of ALP and the content of OC. Moreover, ASD enhanced the activity of both p38 MAPK and ERK, which was inhibited by SB203580 and PD098059. SB203580 and PD098059 also inhibited the positive role of ASD in the differentiation of MSCs into osteoblasts. CONCLUSION:Akebia saponin D significantly enhances differentiation of rat BMSCs into osteoblasts in vitro, which may be mediated by the p38 MAPK and ERK signaling pathways.     

Dexamethason enhanced aorta-derived CD105+ mesenchymal stem cells to differentiate into adipocytes

AIM: To investigate whether aorta-derived CD₁₀₅⁺ cells show characteristics of mesenchymal stem cells, and if dexamethason enhances this kind of CD₁₀₅⁺ cells to differentiate into adipocytes. METHODS: The distribution of CD105 in aorta was assessed by imunohistochemistry. The aorta wall cells were isolated and immunophenotypes were identified by FACS. CD₁₀₅⁺ cells were sorted using MACS CD105 micromagnetic beads. The differentiation of CD₁₀₅⁺ cells into adipocytes and osteoblasts was induced under different conditions and indicated by staining of Oil red O, detecting of alkaline phosphatase activity, calcium accumulation stained with silver nitrate and transmission electron microscope analysis, respectively. RESULTS: The endothelial cells, a part of medial smooth muscle cells and adventital fibrblasts were CD105 positive. The isolated aortic arch cells were positive for CD105, CD106, CD44, CD29, and negative for CD45, CD11a, CD11b and HLADR. The CD₁₀₅⁺ cells differentiated into adipocytes contained Oil-Red-O-positive lipid droplets, the osteocytes with calcium deposition and alkaline phosphatase activity. Ultrastructurally, it was observed that some needle-shaped crystal calcium deposition similar to bone spicules was inside the cytoplasm of induced osteocytes. When the dexamethason was absent in the adipogenic medium, there were no adipocytes with lipid droplets. CONCLUSION: The results demonstrated that CD₁₀₅⁺ cells showed characters of MSCs reside in aortic wall, and was able to differentiate into adipocytes and osteocytes in vitro. Dexamethason enhanced aorta-derived CD₁₀₅⁺ with characters of MSCs to differentiate into adipocytes. These suggested that MSCs might be related with atherosclerosis.     

Butylated hydroxyanisole promotes expression of neural specific genes in mouse fetal liver cells through extracellular signal-regulated kinase signaling pathways

AIM: To study the mechanism of butylated hydroxyanisole-induced neural differentiation of fetal liver Sca-1+ cells in vitro. METHODS: Sca-1+ cells from 14.5-day-old mouse fetal liver were isolated with a magnetic cell sorting kit. Cultured cells pretreated with or without extracellular signal-regulated kinase (MEK1) inhibitor, PD98059, were induced by 200 μmol/L butylated hydroxyanisole (BHA) for 24 hours, and then incubated in serum-free medium. Expression of genes in treated or untreated cells were assayed by Western blotting and RT-PCR. RESULTS: There was low level of neuronfilament-L (NF-L) and brain factor-1 (BF-1) in fetal liver Sca-1+ cells, but no neuronfilament-H (NF-H) and tyrosine hydroxylase (TH) was observed. BHA significantly promoted the expression of neuron-specific NF-L, NF-H, BF-1, and TH in fetal liver Sca-1+ cells. NF-L, NF-H, BF-1 and TH increased by 6.32 fold, 2.73 fold, 3.37 fold and 2.68 fold, respectively (all P<0.01 vs untreated cells). However, the expression of BHA-induced genes were inhibited by ERK kinase inhibitor PD98059 (25 μmol/L). CONCLUSION: BHA induces neural differentiation of fetal liver cells through ERK.     

Mechanisms of catalpol-induced osteogenic differentiation in SD rat bone marrow mesenchymal stem cells

AIM: To investigate the mechanisms for catalpol-induced osteogenic differentiation of SD rat bone marrow mesenchymal stem cells (BMSCs) in vitro. METHODS: The cells were divided into control group, osteoinduction group and catalpol group. The activity of alkaline phosphatase (ALP) was measured at 7 d, 14 d and 21 d after catapol treatment, meanwhile ALP positive cell numbers and calcium nodes were counted at 14 d and 21 d after catapol treatment,respectively. The mRNA expression of Runx2, osteocalcin, Wnt3a, β-catenin, Wnt5a and Wnt11 was detected at 7 d, 14 d and 21 d after catapol treatment by real-time PCR. RESULTS: Catalpol at 2.0 mg/L increased ALP activity and ALP positive cell numbers significantly(P<0.05), meanwhile, it also increased calcium nodes numbers in cultured BMSCs (P<0.05). Compared with control group, catalpol increased the mRNA expression of Runx2 significantly at 14 d, but not at the 7 d and 21 d. Catapol also promoted the mRNA expression of osteocalcin significantly from 7 d to 21 d. Compared with control group, the mRNA expression of Wnt3a and β-catenin in catalpol group was increased at 14 d and 21 d. In addition, the mRNA expression of Wnt5a and Wnt11 in catalpol group was higher than that in control group at 14 d, but that was decreased at 21 d. CONCLUSION: Catalpol induces differentiation of BMSCs into osteoblast by increasing the mRNA expression of Runx2, and promotes the differentiation and mature of these osteoblasts by increasing ALP secretion, osteocalcin mRNA expression and calcium deposition. The activation of Wnt signaling pathway may be involved in this pro-osteogenic differentiation process.     

Isolation and multilineage differentiation of mesenchymal stem cells from human umbilical cord vein in vitro

AIM: To investigate the isolation, purification, expansion and multilineage differentiation of mesenchymal stem cells (MSCs) derived from human umbilical cord vein in vitro.METHODS: By 1% collagenase Ⅱ digestion, endothelial cells were isolated from human umbilical cord vein and cultured in IMDM medium.The morphology of the cells was observed by Wright’s staining and electron microscope.Cell cycle and immunophenotype were investigated by flow cytometry.Assays of adipogenic and osteogenic differentiation were performed in vitro.von Kossa staining, Oil Red O staining and mRNA expression of osteopontin and lipoprotein lipase were studied in the induced cells.RESULTS: The cells from the cord vein displayed a fibroblast-like morphology adhering to the culture plate.FACS showed that the cells expressed several MSCs-related antigens such as CD29, CD44 and CD105, while CD13, CD31, CD45, CD34, and HLA-DR were negative.Adipocyte and osteocyte differentiation were induced successfully.CONCLUSION: The morphology, growth characteristics, immunophenotype and pluripotentiality of the MSCs from human umbilical cord vein are similar to the MSCs from bone marrow (BM).They could potentially be an excellent source of MSCs for experiments and clinics.     

《中国蔬菜品种志》

AIM: To characterize the gene expression of sortilin on adipogenic and osteogenic differentiation in mesenchymal stem cells (MSCs) in vitro and explore its significance.METHODS: MSCs derived from human bone marrow were isolated and cultured in vitro, then were stimulated in osteogenic medium and adipogenic medium, respectively. Osteopontin and lipoprotein lipase were detected by RT-PCR. Sortilin expression was analyzed by semiquantitative RT-PCR. RESULTS: 1.MSCs displayed the potential of differentiation into osteoblast and adipocyte. 2.Sortilin was upregulated one day after osteogenic induction and remained upregulated for a week. The expression of sortilin was significant increased on day 3(P＜0.01). 3. No significant changes of sortilin expression was found in adipogenic differentiation (P＞0.05).CONCLUSION: Sortilin may be useful to modulate the osteogenic differentiation and may not be necessary for adipocyte commitment in MSCs. The regulation of sortilin expression may provide new protocal and strategy for the treatment of osteoporosis and osteopenic disease.     

Directed differentiation of embryonic stem cells into epithelial cells by co-culture with human laryngeal epithelial cell conditioned medium

AIM:To explore the culture and inductive condition for the directed differentiation of embryonic stem cells into epithelial cells in human laryngeal epithelial cell conditioned medium.METHODS:E14 murine stem cells were induced into embryoid body in vitro first,then the cells of embryoid body were cultured in the induction system containing human laryngeal epithelial conditioned medium and epithelial cell growth factors.On day 14 of culture,samples were detected for the cytokeratins 4,14,19 expressions at protein level.Morphology of the cells was also observed under microscope.RESULTS:During the process of epithelial induction,cells with epithelial cell morphology were seen under contrast microscope.Immunofluorescent assay showed that cytokeratins 4,14,and 19 were all expressed at protein level in differentiated cell.CONCLUSION:This study suggests that epithelial cells could be induced from the directed differentiation of embryonic stem cells in the conditioned medium of human laryngeal epithelial cell cultures.This work has provided basic data for artificial laryngeal epithelia preparation.     

Effects of rhTGF-β1 on proliferation and osteogenic differentiation of MSCs in SD rats

AIM：To investigate the effects of recombinant human transforming growth factor β1 (rhTGF-β1) on the ability of proliferation and osteogenic differentiation of rat bone marrow mesenchymal stem cells (MSCs), as well as its effects on the expression of bone morphogenetic protein 2 (BMP-2), Smad4 and core binding factor α1 (Cbfa1). METHODS：SD rat MSCs were isolated and purified by the differential time adherent method. MTT assay was used to confirm the optimal concentration of rhTGF-β1 for the proliferation of MSCs. The optimal concentration for differentiation of MSCs into osteoblast was also determined by observing the activity and positive staining of alkaline phosphatase. According to the different induction conditions, MSCs were divided into 4 groups:control group, classic group, rhTGF-β1 group, and rhTGF-β1+classic group. Alkaline phosphatase, type I collagen, bone Gla protein and calcium nodes were detected to evaluate the osteogenic differentiation. BMP-2 was detected by ELISA and the mRNA expression of Smad4 and Cbfa1 was analyzed by real-time quantitative PCR. RESULTS：The optimal concentrations of rhTGF-β1 for the proliferation of MSCs and for the osteogenic differentiation of MSCs were 10 and 5 μg/L, respectively. The MSCs in classical group and rhTGF-β1 group were promoted to osteogenic differentiation, and the mRNA expression of BMP-2, Smad4 and Cbfa1 was increased. rhTGF-β1 induced osteogenic differentiation of MSCs in the early and middle terms. However, in rhTGF-β1+classic group, the osteogenic differentiation of MSCs was more obvious in the late term. CONCLUSION:The induction conditions of classical group, rhTGF-β1 group and rhTGF-β1+ classical group promote the differentiation of MSCs by increasing BMP-2 secretion and starting the TGF-β superfamily/Smads signaling pathway to regulate the differentiation of MSCs.     

Effects of liquid crystal/PU composite substrate on osteogenic differentiation of rBMSCs

AIM: To explore the effect of the elastic modulus and sizes of liquid crystal (LC) phases on osteogenic differentiation based on OPC/PU composite substrate by mimicking the microenvironment in rat bone mesenchymal stem cells (rBMSCs). METHODS: A series of composite substrates with different elastic modulus were constructed via modulation of LC content in the composites. The surface phase structure was observed by polarized microscopy, and the mechanical property was measured by a universal material testing machine. Furthermore, the laser confocal microscope was employed to observe the spreading, polarization and the cytoskeleton arrangement of the rBMSCs. The proliferation of rBMSCs was evaluated by CCK-8 assay. The specific mRNA expression of osteogenic differentiation such as collagen Ⅰ, and osteopontin on the composite membranes was detected by real-time PCR. RESULTS: The size and number of LC phase increased and the elastic modulus of the composite substrates decreased with the increase of the LC content. The rBMSCs exhibited better characteristics of initial adhesion, spreading and proliferation on the OPC10-PU and OPC30-PU in the early and medium culturing. The rBMSCs displayed higher expression of collagen Ⅰ and osteopontin on the OPC10-PU in the early and medium osteogenic induction, while the high expression of these osteogenic genes occured on the OPC30-PU and OPC50-PU in later osteogenic induction. The emphasis of genetic expression was switched from collagen Ⅰ in the early and medium osteogenic induction to osteopontin in the later stage. CONCLUSION: When the content of LC remained low in the composite substrates, rBMSCs mainly responded to the mechanical stimuli induced by substrate stiffness and exhibited distinguished cellular behaviors; with the increase in the LC content, rBMSCs had strong interactions with LC by sensing the viscoelasticity of LC, probably resulted from the contribution of both substrate stiffness and the viscoelasticity of LC phase.     

Osteogenic and neurogenic differentiation of human yolk sac mesenchymal stem cells

AIM: To purify human yolk sac mesenchymal stem cells (hYS-MSC) and investigate its osteogenic and neurogenic differentiation potentials. METHODS: hYS-MSC were separated from yolk sac and purified via passage culture. The karyotype of hYS-MSCs was analyzed via G-banded characteristics. Flow cytometric analysis was used to determine the cell cycle and phenotype of hYS-MSC. The AKP expression of hYS-MSC was also tested. Osteogenic differentiation of hYS-MSCs was induced by 10-8mol/L dexamethasone, 10 mmol/L β-glycerophosphate and 50 mg/L vitamin C. Alizarin red S stain was used for identification of mineralization. β-mecaptoethanol or salviae miltiorrhizae were used to induce neurogenic differentiation of hYS-MSCs. The expressions of NSE, NF and GFAP were identified by immunohistochemical method. RESULTS: hYS-MSCs could be purified at passages 2 or 3. The cell cycle analysis suggested that hYS-MSCs showed strong proliferational potentials by which the cells kept normal diploid karyotype during the in vitro culture. Flow cytometry showed the phenotype of purified hYS-MSCs was uniformly positive for CD29, CD44, CD105, and CD166, and negative for reactivity to antigens CD34, CD45, or CD86. hYS-MSCs were weakly but clearly positive in AKP. Osteogenic differentiation was appeared after induction of osteogenic differentiation. hYS-MSCs, which were of spindle shape, uniform in size, were induced to pleomorphism osteoblast-like cells which expressed high level of AKP. Aggregates or nodules were formed at day 7 and calcium accumulation was detected by alizarin red S staining on day 10 or day 14. Neurogenic differentiation of hYS-MSCs was induced by β-mecaptoethanol or salviae miltiorrhizae. NSE, NF or GFAP positive cells were detected by immunohistochemical staining. CONCLUSIONS: hYS-MSCs have strong proliferation potential and the normal diploid karyotype is kept during the in vitro culture. The phenotype of hYS-MSCs is coincident with adult hMSCs. hYS-MSCs could be induced to differentiate into osteogenic or neurogenic cells.     

Angiotensin II regulates catalase expression and promotes fibroblast phenotype transformation through ERK1/2 pathway

AIM: To explore the effect of extracellular signal-regulated kinase 1/2 (ERK1/2) on the vascular adventitial remodeling in a hypertension rat model. METHODS: The rats were randomly divided into control group, mini-pump infusion of saline group and mini-pump infusion of angiotensin II (Ang II) group as the hypertension model. The systolic pressure and vascular morphology of the rats were examined. Adventitial fibroblasts were treated with Ang II, PD98059 (ERK1/2 inhibitor) and Ang II+PD98059. The catalase (CAT) expression in the cells was detected by Western blotting. RESULTS: Compared with control group and mini-pump infusion of saline group, the systolic pressure and carotid media thickness (stained by HE) in mini-pump infusion of Ang II group were significantly increased (P<0.01). Meanwhile, artery morphology in mini-pump infusion of Ang II group had obviously changed with a significant occurrence of pathological vascular remodeling. The result of Western blotting showed that the expression of CAT in the adventitial fibroblasts treated with Ang II+PD98059 was much higher than that in the cells treated with Ang II alone (P<0.05), indicating that down-regulation of CAT induced by Ang II was restored by ERK1/2 signaling pathway. CONCLUSION: Ang II down-regulates CAT through ERK1/2 pathway and promotes cell phenotype transformation, which lead to pathological vascular remodeling.     

Strontium ranelate promotes osteogenic differentiation of rat bone mesenchymal stem cells through Hedgehog/Gli1 signaling pathway

AIM: To explore whether strontium ranelate(Sr) promotes osteogenic differentiation of rat bone mesenchymal stem cells(BMSCs) through the Hedgehog/Gli1 signaling pathway. METHODS: BMSCs were isolated from 4-week-old rats by adherent culture and induced to differentiate into osteoblasts. According to the experimental purposes, the cells were exposed to different concentrations of Sr, cyclopamine(Cy, an inhibitor of Hedgehog receptor) or Gli1-siRNA. The expression of Gli1 and Runx2 in the cells was detected by Western blotting. The activity of alkaline phosphatase(ALP) was measured by the method of colorimetry, and the mineralized nodules were observed under microscope with alizarin red staining. RESULTS: Exposure to Sr at concentrations of 0.1 to 5 mmol/L for 7 d markedly increased the expression of Gli1 in the BMSCs, and the increase in Gli1 expression was the most obvious following Sr exposure at concentration of 3 mmol/L. Cy at concentration of 10 μmol/L inhibited Sr-induced up-regulation of Gli1 expression. Transfection of the BMSCs with Gli1-siRNA not only obviously inhibited Sr-induced up-regulation of Gli1 and Runx2(a downstream protein of Gli1) expression, but also antagonized Sr-induced enhancement of ALP activity and the formation of mineralized nodules. CONCLUSION: The Hedgehog/Gli1 pathway is involved in Sr-induced osteogenic differentiation of rat BMSCs.     

Strontium ranelate promotes osteogenic differentiation of rat bone mesenchymal stem cells through TGF-β1/Smad signaling pathway

[ABSTRACT] AIM: To study the roles of transforming growth factor β1 (TGF-β1)/Smad signaling pathway in strontium ranelate (Sr)-induced osteogenic differentiation of rat bone marrow mesenchymal stem cells (BMSCs). METHODS: In the process of osteogenic differentiation of rat BMSCs, the expression of phosphorylated Smad2 (p-Smad2) and Runx2 was detected by Western blotting after the cells were treated with Sr. BMSCs were pretreated with SB431542, a selective inhibitor of TGF-β1, or Smad2 small interfering RNA (Smad2-siRNA), followed by Sr treatment, and then the expression of p-Smad2 and Runx2 was observed. At the same time, the activity of alkaline phosphatase (ALP) and the level of calcium nodules were detected to determine the osteogenic differentiation of BMSCs. RESULTS: The expression levels of p-Smad2 and Runx2 were enhanced under the action of Sr in the process of osteogenic differentiation of rat BMSCs. The expression of p-Smad2 reached to maximum when BMSCs were treated with Sr at concentration of 1 mmol/L for 1 h. The expression of Runx2 reached to maximum when BMSCs were treated with Sr at concentration of 1 mmol/L for 5 d. The pretreatment with SB431542 or Smad2-siRNA inhibited not only the expression of p-Smad2 and Runx2, but also the activity of ALP and the level of calcium nodules. CONCLUSION: Sr promotes the osteogenic differentiation of rat BMSCs through the TGF-β1/Smad signaling pathway.