Higher BMP receptor expression and BMP-2-induced osteogenic differentiation in tendon-derived stem cells compared with bone-marrow-derived mesenchymal stem cells

Purpose  

Surgical reattachment of tendon to bone often fails due to regeneration failure of the specialised tendon–bone junction (TBJ). The use of mesenchymal stem cells for TBJ regeneration has been reported with promising results. Tendon-derived stem cells (TDSCs) with high proliferative and multi-lineage differentiation potential have been isolated. As stem cells residing in tendons, TDSCs can be considered a new cell source for TBJ repair. Bone morphogenic protein 2 (BMP-2) is a potent osteogenic factor with roles in normal bone healing and pathological ectopic bone formation in soft tissues. The use of BMP-2 to promote TBJ repair has been well reported. This study aimed to compare TDSCs to the gold standard bone-marrow-derived mesenchymal stem cells (BMSCs) with respect to osteogenic response to BMP-2 in vitro.     

脂联素通过调节BMP信号通路促进骨髓干细胞成骨分化

目的 研究脂联素（adiponectin, ApN）对骨髓间充质干细胞（bone marrow mesenchymal stem cells, BMSCs）成骨分化的作用,并探讨其可能的机制。方法 体外培养BMSCs,构建ApN过表达质粒及干扰质粒,转染至BMSCs中。将BMSCs随机分为5组：对照组、过表达组、过表达空载组、干扰组和干扰空载组。茜素红染色观察各组细胞钙化沉积。碱性磷酸酶（alkaline phosphatase, ALP）染色观察各组细胞成骨分化能力。qRT-PCR检测ApN受体、骨形态发生蛋白（bone morphogenetic protein, BMP）信号通路及成骨相关基因表达情况。结果 与对照组相比,过表达组BMSCs中钙化沉积和ALP阳性表达增多,AdipoR1、AdipoR2、BMP2、RUNX2、Smad1和Smad5 mRNA表达量显著升高（P<0.05）;干扰组BMSCs中钙化沉积和ALP阳性表达减少,AdipoR1、AdipoR2、BMP2、RUNX2、Smad1和Smad5 mRNA表达量显著降低（P<0.05）。结论 ApN可能通过上调BMP信号通路促进BMSCs成骨分化。     

Noggin resistance contributes to the potent osteogenic capability of BMP9 in mesenchymal stem cells

Mesenchymal stem cells (MSCs) are multipotent progenitors and can differentiate into osteogenic, chondrogenic, and adipogenic lineages. Bone morphogenetic proteins (BMPs) play important roles in stem cell proliferation and differentiation. We recently demonstrated that BMP9 is a potent but less understood osteogenic factor. We previously found that BMP9‐induced ectopic bone formation is not inhibited by BMP3. Here, we investigate the effect of BMP antagonist noggin on BMP9‐induced osteogenic differentiation. BMP antagonists noggin, chording, gremlin, follistatin, and BMP3 are highly expressed in MSCs, while noggin and follistatin are lowly expressed in more differentiated pre‐osteoblast C2C12 cells. BMP9‐induced osteogenic markers and matrix mineralization are not inhibited by noggin, while noggin blunts BMP2, BMP4, BMP6, and BMP7‐induced osteogenic markers and mineralization. Likewise, ectopic bone formation by MSCs transduced with BMP9, but not the other four BMPs, is resistant to noggin inhibition. BMP9‐induced nuclear translocation of Smad1/5/8 is not affected by noggin, while noggin blocks BMP2‐induced activation of Smad1/5/8 in MSCs. Noggin fails to inhibit BMP9‐induced expression of downstream targets in MSCs. Thus, our results strongly suggest that BMP9 may effectively overcome noggin inhibition, which should at least in part contribute to BMP9's potent osteogenic capability in MSCs. © 2013 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 31:1796–1803, 2013     

人骨髓间充质干细胞体外成骨分化过程中成骨相关基因的动态表达

目的：系统研究人骨髓间充质干细胞（hBMSCs）体外成骨诱导分化过程中成骨相关基因的表达变化。方法：应用密度梯度离心法分离hBMSCs,取第2代细胞通过流式检测及多向诱导分化方法进行干细胞鉴定;应用RT-PCR法对hBMSCs在体外成骨诱导不同时间点的成骨相关基因表达进行检测。结果：第2代hBMSCs表达间充质干细胞表面标志CD44、CD90,具有成脂和成骨分化潜能。成骨相关基因在诱导早期部分表达,中期均有表达,基因表达大部分在14天达高峰,与矿化相关的基因表达在21天达高峰。结论：hBMSCs体外成骨诱导过程中成骨相关基因呈动态表达,其表达时序与成骨细胞生理发育基本相似。     

Loss of myostatin (GDF8) function increases osteogenic differentiation of bone marrow-derived mesenchymal stem cells but the osteogenic effect is ablated with unloading

Myostatin (GDF8) is a negative regulator of skeletal muscle growth and mice lacking myostatin show a significant increase in muscle mass and bone density compared to normal mice. In order to further define the role of myostatin in regulating bone mass we sought to determine if loss of myostatin function significantly altered the potential for osteogenic differentiation in bone marrow-derived mesenchymal stem cells in vitro and in vivo. We first examined expression of the myostatin receptor, the type IIB activin receptor (AcvrIIB), in bone marrow-derived mesenchymal stem cells (BMSCs) isolated from mouse long bones. This receptor was found to be expressed at high levels in BMSCs, and we were also able to detect AcvrIIB protein in BMSCs in situ using immunofluorescence. BMSCs isolated from myostatin-deficient mice showed increased osteogenic differentiation compared to wild-type mice; however, treatment of BMSCs from myostatin-deficient mice with recombinant myostatin did not attenuate the osteogenic differentiation of these cells. Loading of BMSCs in vitro increased the expression of osteogenic factors such as BMP-2 and IGF-1, but treatment of BMSCs with recombinant myostatin was found to decrease the expression of these factors. We investigated the effects of myostatin loss-of-function on the differentiation of BMSCs in vivo using hindlimb unloading (7-day tail suspension). Unloading caused a greater increase in marrow adipocyte number, and a greater decrease in osteoblast number, in myostatin-deficient mice than in normal mice. These data suggest that the increased osteogenic differentiation of BMSCs from mice lacking myostatin is load-dependent, and that myostatin may alter the mechanosensitivity of BMSCs by suppressing the expression of osteogenic factors during mechanical stimulation. Furthermore, although myostatin deficiency increases muscle mass and bone strength, it does not prevent muscle and bone catabolism with unloading.     

Immunomodulatory and osteogenic differentiation effects of mesenchymal stem cells by adenovirus‐mediated coexpression of CTLA4Ig and BMP2

Many reports have previously utilized a human bone morphogenetic protein 2 (BMP2)‐expressing recombinant adenoviral vector (AdBMP2) and mesenchymal stem cells (MSCs) for osteoinductive gene therapy. However, immunosuppression is essential for osteoinduction by AdBMP2, and this is one of the major impediments to its clinical use. In the present study, in vitro propagated MSCs were transduced using an adenoviral (Ad) vector to express the gene encoding cytotoxic T lymphocyte antigen 4‐immunoglobulin (CTLA4Ig). Lymphocyte response was induced by allogeneic‐irradiated MSCs as stimulators. We also examined the effects of cotransfection with a combination of the CTLA4Ig and the BMP2 gene on osteoblastic cell differentiation. The results showed that BMP2 gene transfected MSC elicited significant stimulatory responses, and one‐way MLR reactions were significantly blunted by CTLA4Ig. Further study demonstrates that cotransfection of MSCs with the combination of the CTLA4Ig and the BMP2 gene stimulates osteoblastic cell differentiation in vitro. The findings suggest that genetic engineering of MSCs to express an immunosuppressive molecule in combination with an osteogenic protein gene may have potential application in the treatment of several genetic diseases and in bone reconstruction. © 2007 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 26:314–321, 2008     

Development of mineralized nodules in fetal rat mandibular osteogenic precursor cells: requirement for dexamethasone but not for beta-glycerophosphate

We have reported that a cell population obtained from fetal rat mandible with neutral protease (Pro I) has a unique differentiation sequence in which the elevation of alkaline phosphatase (ALPase), calcium accumulation, and collagen synthesis occurs simultaneously. In this report, we further characterized Pro I-released population of cells by studying the effect of dexamethasone (Dex) or β-glycerophosphate (β-GP) on the formation of bone nodules. The formation of bone nodules in Pro I-released population of cells (ProIRPC) was augmented by the addition of Dex (10⁻⁷ M) from days 3 to 14, suggesting that Pro IRPC contained osteoprogenitor (OP) cells. A 24-hour pulse treatment of ProIRPC released population of cells with Dex on days 9 and 12 resulted in an increase in the number of nodules but treatment on days 3, 6, or 15 did not. The number of bone nodules formed in Pro IRPC pulse treated with Dex on day 9 was comparable with that in Pro IRPC treated with Dex from days 3 to 14. Dex caused an earlier elevation of ALPase, in which maximal expression was observed on day 10. β-GP caused a prolonged elevation of ALPase, but did not affect the formation of bone nodules. Unlike Pro I-released population of cells, rat calvarial cells did not form mineralized nodules without β-GP, and showed that a Dex-responsive period on bone nodule formation in rat calvarial cells was at preconfluency (days 0 and 1). Thus, it appeared that the Dex-induced differentiation of early OP cells in Pro IRPCs occurred during the limited period from day 9 to day 12. Pro IRPC was found to have an unique characteristic that bone nodule formation was not affected by β-GP. Received: 22 July 1998 / Accepted: 26 July 1999     

Optimizing the osteogenic potential of adult stem cells for skeletal regeneration

Adult stem cells, including mesenchymal stem cells, display plasticity in that they can differentiate toward various lineages including bone cells, cartilage cells, fat cells, and other types of connective tissue cells. However, it is not clear what factors direct adult stem cell lineage commitment and terminal differentiation. Emerging evidence suggests that extracellular physical cues have the potential to control stem cell lineage specification. In this perspective article, we review recent findings on biomaterial surface and mechanical signal regulation of stem cell differentiation. Specifically, we focus on stem cell response to substrate nanoscale topography and fluid flow induced shear stress and how these physical factors may regulate stem cell osteoblastic differentiation in vitro. © 2011 Orthopaedic Research Society Published by Wiley Periodicals, Inc. J Orthop Res 29:1627–1633, 2011     

腺病毒介导入BMP-2对骨髓间质干细胞成骨能力的影响

目的　探讨腺病毒介导的人骨形态发生蛋白 (BMP 2 )转染对体外培养骨髓间质干细胞(MSCs)成骨能力的影响。　方法　取日本大耳白兔 2 0只自双侧股骨大转子取材培养MSCs ,左侧来源细胞为实验组 ,右侧为对照组。以复制缺陷重组腺病毒介导人BMP 2基因转染MSCs后 ,用ALP检测两组细胞的ALP活性 ;骨钙素RT PCR检测两组细胞Ⅰ型胶原的表达 ;BGP放免分析检测两组细胞的骨钙素含量。　结果　转基因组和对照组ALP分泌量 (U/L)分别为 7 0 1± 0 5 9、5 2 3± 0 5 5 ;RT PCRⅠ型胶原的表达为 1 3 5± 0 12、3 65± 0 3 7;骨钙素 (ng/ml)为 2 4 5 0± 0 93和 15 45± 1 81。两组间差异均有显著性 (P <0 0 5 )。　结论　用腺病毒介导人BMP 2蛋白作用后的MSCs具有成骨细胞的生物学特性。腺病毒介导人BMP 2转基因可以提高MSCs的体外成骨能力。     

The BMP2 antagonist inhibitor L51P enhances the osteogenic potential of BMP2 by simultaneous and delayed synergism

Bone morphogenetic protein 2 (BMP2) is a potent osteoinductive cytokine that plays crucial roles in bone repair. However, large amounts of BMP2 are required to induce sufficient bone formation in humans possibly due to a feedback response of BMP antagonists. The engineered BMP2 variant L51P is deficient in BMP receptor type I activation but maintains affinity for BMP antagonists and can allow for the inactivation of BMP antagonists, and eventually enhance BMP2 action. As hypothesized, simultaneous addition of L51P enhanced the BMP2-induced osteogenesis. To test the ability of L51P to competitively inactivate BMP antagonists, cell binding affinity of BMP2 ligands was investigated in the presence or absence of L51P. Because the BMP antagonists were highly expressed 3 days after exogenous BMP2 stimulation, we collected supernatants from 3-day stimulated cell cultures and used as condition culture media (CM). The results showed a significant decrease in the cell binding of BMP2 ligands when cells were incubated with exogenous BMP2 and CM, whereas L51P addition competitively rescued the suppression of BMP2-to-cell binding induced by CM incubation. In a delayed experimental model, L51P was applied 3 days after exogenous BMP2 stimulation and we could observe a striking enhancement of the BMP2-induced SMAD-1/5/8 phosphorylation and luciferase activity of the Id1 promoter compared to the simultaneous addition of the two factors. These findings provide a deeper insight into the cellular and molecular mechanisms involved in the effect of L51P in suppressing the BMP antagonists and enhancing BMP activity. Additionally, these results demonstrate that L51P is a promising down regulator of BMP-induced negative feedback, which could have a significant impact in future applications of BMP2 in research and clinical settings.     

Interleukin-10 but not transforming growth factor-beta is essential for generation and suppressor function of regulatory cells induced by intratracheal delivery of alloantigen

BACKGROUND: We previously reported that intratracheal delivery of alloantigen-induced regulatory cells in mouse heart-transplantation model. Here, we investigated roles of interleukin (IL)-10 and transforming growth factor (TGF)-beta in induction and effector phases of the regulatory cells. METHODS: CBA mice were pretreated with intratracheal delivery of C57BL/10 splenocytes and administration of neutralizing anti-IL-10 or anti-TGF-beta monoclonal antibody (mAb). Seven days after the pretreatment, naive CBA mice (secondary recipients) were given adoptive transfer of splenocytes from the pretreated mice and underwent heart grafting from C57BL/10 mice. To determine roles of these cytokines in the effector phase of the regulatory cells, anti-IL-10 or anti-TGF-beta mAb was administered weekly into the secondary recipients after the adoptive transfer. RESULTS: Adoptive transfer of splenocytes from CBA mice that had been pretreated with intratracheal delivery of C57BL/10 splenocytes significantly prolonged the survival of C57BL/10 allograft (median survival time [MST] 68 days) as compared with adoptive transfer from untreated CBA mice (MST 12 days). In the induction phase, anti-IL-10 mAb abrogated development of the regulatory cells that afforded prolonged allograft survival in the secondary recipients (MST 20 days), whereas anti-TGF-beta mAb did not abrogate it (MST 88 days). In the effector phase, anti-IL-10 mAb abrogated prolonged allograft survival afforded by adoptive transfer of the regulatory cells in the secondary recipients (MST 27 days), whereas anti-TGF-beta mAb did not abrogate suppressor function of the regulatory cells (MST 53 days). CONCLUSION: IL-10 but not TGF-beta was required for generation and suppressor function of the regulatory cells induced by intratracheal delivery of alloantigen.     

Albumin is required for the guinea pig sperm capacitation but is not essential for acrosome reaction and fusion with eggs.

The importance of serum albumin in supporting guinea pig sperm capacitation, acrosome reaction, and fusion with eggs in vitro was studied by incubating the spermatozoa in albumin-free medium containing different synthetic polymers. Serum albumin was found to be an obligatory component in the incubating medium for the capacitation of guinea pig spermatozoa. Albumin in the medium is not essential for the acrosome reaction and fusion with the eggs, but these phenomena take place most efficiently in presence of albumin.     

Inhibition of osteogenic differentiation of human mesenchymal stem cells

Mesenchymal stem cells (hMSCs) have been shown to differentiate into osteoblasts that, in turn, are capable of forming tissues analogous to bone. The present study was designed to investigate the inhibition of osteogenesis by hMSCs. Bone marrow-derived hMSCs were treated with transforming growth factor beta-3 (TGFbeta3) at various doses during or after their differentiation into osteogenic cells. TGFbeta3 was encapsulated in poly(DL-lactic-co-glycolic acid) (PLGA) microspheres and released via controlled delivery in the osteogenic culture of hMSCs and hMSC-derived osteoblasts for up to 28 days. Controlled release of TGFbeta3 inhibited the osteogenic differentiation of hMSCs, as evidenced by significantly reduced alkaline phosphatase activity and staining, as well as decreased mineral deposition. After hMSCs had been differentiated into osteoblasts, controlled release of TGFbeta3 further inhibited not only alkaline phosphatase and mineral deposition but also osteocalcin expression. These findings demonstrate the potential for sustained modulation of the behavior of stem cells and/or stem cell-derived lineage-specific cells via controlled release of growth factor(s). The attenuation of osteogenic differentiation of MSCs may facilitate understanding not only the regulation and patterning of osteogenesis in development but also several pathological models such as osteopetrosis, craniosynostosis, and heart valve calcification.     

Simvastatin induces osteogenic differentiation of murine embryonic stem cells

Statins are potent inhibitors of cholesterol synthesis. Several statins are available with different molecular and pharmacokinetic properties. Simvastatin is more lipophilic than pravastatin and has a higher affinity to phospholipid membranes than atorvastatin, allowing its passive diffusion through the cell membrane. In vitro studies on bone marrow stromal cells, osteoblast‐like cells, and embryonic stem cells have shown statins to have cholesterol‐independent anabolic effects on bone metabolism; alas, statins were supplemented in osteogenic medium, which does not facilitate elucidation of their potential osteoinductive properties. Embryonic stem cells (ESCs), derived from the inner cell mass of the blastocyst, are unique in that they enjoy perpetual self‐proliferation, are pluripotent, and are able to differentiate toward all the cellular lineages composing the body, including the osteogenic lineage. Consequently, ESCs represent a potentially potent cell source for future clinical cellular therapies of various bone diseases, even though there are several hurdles that still need to be overcome. Herein we demonstrate, for the first time to our knowledge, that simvastatin induces murine ESC (mESC) differentiation toward the osteogenic lineage in the absence of osteoinductive supplements. Specifically, we found that a simvastatin concentration in the micromolar range and higher was toxic to the cells and that an effective concentration for osteoinduction is 0.1 nM, as shown by increased alizarin red staining as well as increased osteocalcin and osetrix gene expression. These results suggest that in the future, lipophilic simvastatin may provide a novel pharmacologic agent for bone tissue engineering applications. © 2010 American Society for Bone and Mineral Research.     

Human mesenchymal stem cell proliferation and osteogenic differentiation during long-term ex vivo cultivation is not age dependent

Mesenchymal stem cells (MSCs) are of major clinical interest for the development of cell-based strategies to treat musculoskeletal diseases including critical-size bone defects caused by trauma, degenerative disorders, or infections. Elderly people mainly suffer from critical-size bone defects from the rising incidence of trauma, osteoporosis, and arthroplasties. In this study we investigated the influence of donor age on proliferation and osteogenic differentiation in long-term ex vivo cultures of primary human MSCs from patients in different age groups. Fifteen patients (8 men/7 women) comprised three age groups: (I) <50 years, (II) 50–65 years, and (III) >65 years. MSCs harvested from bone marrow derived from routine surgical procedures were isolated and cultured in standard medium over eight passages. Osteogenic differentiation was induced by dexamethasone (10 nM), ascorbic acid (300 μM), and β-glycerophosphate (3.5 mM). Osteogenic differentiation capacity of MSCs was quantified by alkaline phosphatase (ALP) activity, fluorescence-activated cell sorting (FACS) analysis of the surface markers CD9, CD90, CD54, CD166, CD105, CD44, and CD73, and RT-PCR for Coll I and II, Cbfa 1, ALP, OC, BSP1, and GAPDH genes characterized the phenotypic changes during monolayer expansion. In vitro chondrogenic differentiation was analyzed by immunohistochemistry and RT-PCR. Progenitor cells could be expanded in the long term from all bone marrow donations. FACS single staining analysis from MSCs showed no significant difference between the age groups. The surface antigen CD166 was predominantly found in all cell cultures independently of differentiation stage. Comparison of expanded and differentiated MSCs within a single age group showed that undifferentiated MSCs had higher CD44 levels. Osteogenic stimulation of MSCs was confirmed by measuring ALP activity. The highest ALP activity was found in probands of the age group >65 years. Additionally, we observed a tendency toward male-specific ALP increase during differentiation. Osteogenic marker gene expression in MSCs was detected by RT-PCR. No significant expression differences were detected between the three donor age groups. Micromass culture of MSCs resulted histologically and immunohistologically in a chondrogenic phenotype. Elderly osteoprogenitor cell donors are a highly clinically relevant patient population. In summary, cultivation leads to a reduced osteogenic differentiation capacity regardless of age. Because donor age does not affect osteogenic differentiation potential, it should not be used as an exclusion criterion for autologous transplantation of human adult MSCs.     

Imaging early stage osteogenic differentiation of mesenchymal stem cells

Stem cells, such as mesenchymal stem cells (MSCs), contribute to bone fracture repair if they are delivered to the injury site. However, it is difficult to assess the retention and differentiation of these cells after implantation. Current options for non‐invasively tracking the transplanted stem cells are limited. Cell‐based therapies using MSCs would benefit greatly through the use of an imaging methodology that allows cells to be tracked in vivo and in a timely fashion. In this study, we implemented an in vivo imaging methodology to specifically track early events such as differentiation of implanted human MSCs (hMSCs). This system uses the collagen type 1 (Col1α1) promoter to drive expression of firefly luciferase (luc) in addition to a constitutively active promoter to drive the expression of green fluorescent protein (GFP). The resulting dual‐promoter reporter gene system provides the opportunity for osteogenic differentiation‐specific luc expression for in vivo imaging and constitutive expression of GFP for cell sorting. The function of this dual‐promoter reporter gene was validated both in vitro and in vivo. In addition, the ability of this dual‐promoter reporter system to image an early event of osteogenic differentiation of hMSCs was demonstrated in a murine segmental bone defect model in which reporter‐labeled hMSCs were seeded into an alginate hydrogel scaffold and implanted directly into the defect. Bioluminescence imaging (BLI) was performed to visualize the turn‐on of Col1α1 upon osteogenic differentiation and followed by X‐ray imaging to assess the healing process for correlation with histological analyses. © 2013 Orthopaedic Research Society Published by Wiley Periodicals, Inc. J Orthop Res XX:XXX–XXX, 2013 © 2013 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 31: 871–879, 2013     

促进脂肪来源间充质干细胞成骨分化的诱导方法研究进展

脂肪来源间充质干细胞(ASCs)是一种多能成体干细胞,因安全、含量丰富、易于获取等优点而有望成为理想的骨组织工程(BTE)种子细胞。然而,相较于骨髓间充质干细胞,ASCs的成骨分化能力有限,往往需要进一步诱导。该文从优化支架、添加生物活性因子或促成骨药物、非编码RNA调控和物理刺激几个方面,对促进ASCs成骨分化的诱导方法的研究进展进行综述,以期为BTE研究提供参考。