Gas6, a new regulator of chondrogenic differentiation from mesenchymal cells

The mesenchymal cell line C3H10T1/2 can be preferentially induced toward chondrogenesis by culturing as a micromass in the presence of bone morphogenetic protein 2. To screen new regulator genes for chondrogenic differentiation, we performed differential display polymerase chain reaction and identified growth arrest-specific 6 (Gas6) as a gene that was clearly downregulated by this induction of chondrogenic differentiation. Blockage of Gas6 mRNA expression by siRNA remarkably enhanced the chondrogenic differentiation, while stimulation with recombinant Gas6 inhibited the mRNA expressions of type II collagen (Col2a1) and aggrecan. Gas6 signaling activated the phosphorylation of ERK1/2, SAPK/JNK, and Akt, but not p38 MAPK. These results suggest that Gas6 negatively regulates chondrogenic differentiation, at least through the MAPK pathway.     

小鼠Myf5真核表达载体的构建及其在细胞中的定位

目的：获得小鼠生肌调节因子Myf5基因并构建pEYFP-C1真核表达载体,观察Myf5在小鼠C3H10T1/2细胞中的定位。方法：利用PCR获得Myf5基因克隆到pEYFP-C1载体中,利用脂质体将构建的表达载体转染C3H10T1/2细胞,荧光观察融合蛋白的表达。结果：从小鼠cDNA文库中得到760bp的myf5的CDS序列后,重组到pEYFP-C1载体中并转染C3H10T1/2细胞,荧光显示Myf5蛋白定位在细胞核中。结论：Myf5载体成功构建并在小鼠C3H10T1/2细胞表达,证明了Myf5蛋白定位于细胞核,为进一步研究Myf5与其他蛋白的相互作用奠定了基础。     

Induced endothelial differentiation of cells from a murine embryonic mesenchymal cell line C3H/10T1/2 by angiogenic factors in vitro

A murine embryonic mesenchymal cell line C3H/10T1/2 possesses the potential to differentiate into multiple cell phenotypes and has been recognized as multipotent mesenchymal stem cells, but no in vitro model of its endothelial differentiation has been established and the effect of angiogenic factors on the differentiation is unknown. The aim of the present study was to evaluate the role of angiogenic factors in inducing endothelial differentiation of C3H/10T1/2 cells in vitro. C3H/10T1/2 cells were treated with angiogenic factors, VEGF (10 ng/mL) and bFGF (5 ng/mL). At specified time points, cells were subjected to morphological study, immunofluorescence staining, RT-PCR, LDL-uptake tests and 3-D culture for the examination of the structural and functional characteristics of endothelial cells. Classic cobblestone-like growth pattern appeared at 6 day of the induced differentiation. Immunofluorescence staining and RT-PCR analyses revealed that the induced cells exhibited endothelial cell-specific markers such as CD31, von Willebrand factor, Flk1, Flt1, VE-cadherin, Tie2, EphrinB2 and Vezf1 at 9 day. The induced C3H/10T1/2 cells exhibited functional characteristics of the mature endothelial phenotype, such as uptake of acetylated low-density lipoproteins (Ac-LDL) and formation of capillary-like structures in three-dimensional culture. At 9 day, Weibel–Palade bodies were observed under a transmission electron microscope. This study demonstrates, for the first time, endothelial differentiation of C3H/10T1/2 cells induced by angiogenic factors, VEGF and bFGF, and confirms the multipotential differentiation ability. This in vitro model is useful for investigating the molecular events in endothelial differentiation of mesenchymal stem cells.     

Rohitukine inhibits in vitro adipogenesis arresting mitotic clonal expansion and improves dyslipidemia in vivo

We developed a common feature pharmacophore model using known antiadipogenic compounds (CFPMA). We identified rohitukine, a reported chromone anticancer alkaloid as a potential hit through in silico mapping of the in-house natural product library on CFPMA. Studies were designed to assess the antiadipogenic potential of rohitukine. Rohitukine was isolated from Dysoxylum binacteriferum Hook. to ⬧95% purity. As predicted by CFPMA, rohitukine was indeed found to be an antiadipogenic molecule. Rohitukine inhibited lipid accumulation and adipogenic differentiation in a concentration- and exposure-time-dependent manner in 3T3-L1 and C3H10T1/2 cells. Rohitukine downregulated expression of PPARγ, CCAAT/enhancer binding protein α, adipocyte protein 2 (aP2), FAS, and glucose transporter 4. It also suppressed mRNA expression of LPL, sterol-regulatory element binding protein (SREBP) 1c, FAS, and aP2, the downstream targets of PPARγ. Rohitukine arrests cells in S phase during mitotic clonal expansion. Rohitukine was bioavailable, and 25.7% of orally administered compound reached systemic circulation. We evaluated the effect of rohitukine on dyslipidemia induced by high-fat diet in the hamster model. Rohitukine increased hepatic expression of liver X receptor α and decreased expression of SREBP-2 and associated targets. Rohitukine decreased hepatic and gonadal lipid accumulation and ameliorated dyslipidemia significantly. In summary, our strategy to identify a novel antiadipogenic molecule using CFPMA successfully resulted in identification of rohitukine, which confirmed antiadipogenic activity and also exhibited in vivo antidyslipidemic activity.     

Heparin-binding epidermal growth factor-like growth factor inhibits adipocyte differentiation at commitment and early induction stages

Abstract Adipocytokines, bioactive molecules secreted from adipose tissues, play important roles in physiology, development, and disease. Recently, heparin-binding epidermal growth factor-like growth factor (HB-EGF) was identified as an adipocytokine whose expression correlates with obesity. However, the biological role of fat-secreted HB-EGF is still unclear. In this study, we investigated the effects of HB-EGF on the adipocyte differentiation of C3H10T1/2 pluripotent mesenchymal cells. Upon adipogenic conversion of C3H10T1/2 cells, HB-EGF displayed dynamic changes in expression where an initial decrease was followed by increased levels of expression at later stages. HB-EGF treatment during adipogenic induction inhibited lipid accumulation and decreased the expression of adipocyte molecular markers (fatty acid-binding protein, peroxisome proliferator-activated receptor γ, and CAAT enhancer-binding protein α) and lipogenic genes (glucose transporter, fatty acid synthetase, and lipoprotein lipase). Therefore, HB-EGF has an inhibitory effect on adipocyte differentiation. Administration of HB-EGF at various intervals during adipocyte differentiation revealed that HB-EGF acts during the early stages of adipocyte differentiation, but not at the later stages of differentiation. Furthermore, HB-EGF was able to block the commitment of pluripotent mesenchymal cells to the adipocyte lineage triggered by bone morphogenic protein 4 treatment. These data suggest that HB-EGF acts as a negative regulator of adipogenesis by inhibiting the commitment and early differentiation of the adipose lineage. The inhibitory role of HB-EGF on adipocyte differentiation of pluripotent mesenchymal cells sheds light on potential mechanisms that control adipose tissue homeostasis.     

Ⅲ型纤连蛋白组件包含蛋白5通过抑制ERK1/2磷酸化抑制C3H10T1/2细胞成脂分化

旨在探究Ⅲ型纤连蛋白组件包含蛋白5(type Ⅲ domain-containing protein5,FNDC5)对C3H10T1/2细胞成脂分化的调控作用.利用qRT-PCR和Western印迹检测FNDC5在C3H10T1/2细胞成脂分化过程中的时序性表达规律;构建慢病毒包被的过表达/干扰FNDC5载体,转染C3...     

A comparison of the involvement of p38, ERK1/2 and PI3K in growth factor-induced chondrogenic differentiation of mesenchymal stem cells

Adult mesenchymal stem cells (MSCs) are under investigation as an alternative cell source for the engineering of cartilage tissue in three-dimensional (3D) scaffolds. However, little is known about the intracellular mechanisms involved in the chondrogenic differentiation of MSCs. This study investigated the signaling pathways evoked by TGF-β1 and IGF-1 that mediated chondrogenic differentiation in adult rat bone-marrow derived MSCs in (i) monolayer on plastic and (ii) a 3D collagen-GAG scaffold. The data demonstrated involvement of the p38 pathway, but not ERK1/2 or PI3K in TGF-β1-induced chondrogenic differentiation in monolayer. Similarly, when the MSCs were seeded onto a collagen-GAG scaffold and treated with TGF-β1, the chondrogenic differentiation was dependent upon p38. In contrast, IGF-1-induced chondrogenic differentiation in monolayer involved p38, ERK1/2, as well as PI3K. The phosphorylation of Akt occurred downstream of PI3K and phospho-Akt was found to accumulate in the nucleus of IGF-1-treated cells. When MSCs were seeded onto the collagen-GAG scaffold and exposed to IGF-1, PI3K was required for chondrogenesis. These findings highlight the respective and differential involvement of p38, ERK1/2 and PI3K in growth factor-induced chondrogenesis of MSCs and demonstrates that intracellular signaling pathways are similar when differentiation is stimulated in a 2D or 3D environment.     

Rehmannia inhibits adipocyte differentiation and adipogenesis

Rehmannia glutinosa, a Traditional Chinese Medicine (TCM), has been used to increase physical strength. Here, we report that Rehmannia glutinosa extract (RE) inhibits adipocyte differentiation and adipogenesis. RE impairs differentiation of 3T3-L1 preadipocytes in a dose-dependent manner. At the molecular level, treatment with RE inhibits expression of the key adipocyte differentiation regulator C/EBPβ, as well as C/EBPα and the terminal marker protein 422/aP2, during differentiation of preadipocytes into adipocytes. Additionally, RE inhibits the mitotic clonal expansion (MCE) process of adipocyte differentiation, and RE prevents localization of C/EBPβ to the centromeres. RE also prevents high fat diet (HFD) induced weight gain and adiposity in rats. Taken together, our results indicate that Rehmannia glutinosa extract inhibits preadipocyte differentiation and adipogenesis in cultured cells and in rodent models of obesity.     

BMP2具有诱导C3H10T1/2细胞成脂肪分化的能力

探讨骨形态发生蛋白2（BMP2）诱导鼠胚胎间充质干细胞C3H10T1/2成脂肪分化能力,为临床脂肪代谢疾病的治疗提供理论基础．培养多潜能的间充质干细胞C3H10T1/2,用20 μg/ml BMP2对其诱导一定时间后,RT-PCR检测是否存在BMP信号通路中关键分子BMP受体BMPR I, BMPR Ⅱ及Smad 1/5/8的表达.Western印迹检测Smad 蛋白及MAPK 信号通路中p38磷酸化水平变化,QRT PCR检测成脂肪标志基因aP2以及成脂肪相关转录因子PPARγ,C/EBPα,C/EBPβ表达水平,同时用油红O染色,观测C3H10T1/2细胞成脂肪分化情况．经BMP2诱导后,C3H10T1/2细胞成脂肪分化标志(油红O染色)显著增加,Smad 蛋白及p38磷酸化水平有所上升,同时成脂肪标志基因aP2以及成脂肪相关转录因子PPARγ,C/EBPα,C/EBPβ表达水平各有一定程度提高．BMP2具有诱导C3H10T1/2细胞成脂肪分化能力,其成脂肪分化呈现对BMP2作用的时间依赖性．     

An immediate-early gene, srsA: its involvement in the starvation response that initiates differentiation of Dictyostelium cells

When nutrients are depleted, Dictyostelium cells undergo cell cycle arrest and initiate a differentiation program for survival. We have found a novel gene, srsA, which is rapidly expressed in the first 5 min following the removal of nutrients and is turned off within an hour. This gene encodes a small protein with no significant similarity to previously characterized proteins. Disruption of srsA results in delayed expression of the early genes acaA and carA that encode adenylyl cyclase and the cAMP receptor necessary for chemotactic aggregation, respectively. Streaming is delayed several hours and the aggregates are larger than normal in the mutant strains. These phenotypes are cell-autonomous. Overexpression of srsA also results in delayed aggregation. Some of the slugs of the srsA(OE) strains showed stalked migration reminiscent of the slugs of the related species Dictyostelium mucoroides. The terminal structures formed by srsA(OE) cells were grossly abnormal and contained very few viable spores. When cells overexpressing srsA were developed together with an excess of wild-type cells, the fruiting bodies were still abnormal, indicating that the mutant cells have a dominant effect on late development. These findings suggest that srsA may be involved in both the starvation response and late differentiation.     

Hey1基因参与调控BMP9诱导的C3H10T1/2细胞成骨分化

目的:观察发状分裂相关增强子Hey1在骨形态发生蛋白9(BMP9)诱导的小鼠间充质干细胞(MSCs)C3H10T1/2成骨分化中的作用。方法:包装Hey1、BMP9以及GFP的过表达慢病毒,并分别作用于C3H10T1/2细胞,RT-PCR和Western blot检测Hey1、BMP9以及GFP的慢病毒是否包装成功,碱性磷酸酶(ALP)检测早期成骨指标ALP的变化,茜素红S染色检测晚期成骨指标钙盐沉积,MTT检测Hey1对BMP9调控的C3H10T1/2细胞增值的影响,流式细胞术检测Hey1对BMP9调控的C3H10T1/2细胞周期的影响。结果:Hey1、BMP9以及GFP的慢病毒包装成功;在成骨分化早期,过表达Hey1基因可促进BMP9调控的C3H10T1/2细胞的成骨分化与增殖;在成骨分化晚期,过表达Hey1基因可促进BMP9诱导的C3H10T1/2细胞的成骨分化,并将BMP9调控的C3H10T1/2细胞周期阻滞在G1期。结论:Hey1基因可参与调控BMP9诱导的小鼠C3H10T1/2细胞的早晚期成骨分化,并对细胞的增殖与周期有一定的影响。     

Zebrafish ftz-f1a (nuclear receptor 5a2) functions in skeletal muscle organization

Fushi-tarazu factor 1a (Ftz-F1a, Ff1a, Nr5a2) is a nuclear receptor with diverse functions in many tissues. Here, we report the function of ff1a in zebrafish muscle differentiation. In situ hybridization revealed that ff1a mRNA was present in the adaxial and migrating slow muscle precursors and was down-regulated when slow muscle cells matured. This expression was under the control of hedgehog genes, expanded when hedgehog was increased and missing in mutants defective in genes in the Hedgehog pathway like you-too (yot), sonic you (syu), and u-boot (ubo). Blocking ff1a activity by injecting a deleted form of ff1a or an antisense ff1a morpholino oligo into fish embryos caused thinner and disorganized fibers of both slow and fast properties. Transient expression of ff1a in syu, ubo, and yot embryos led to more fibril bundles, even when slow myoblasts were transfated into fast properties. We showed that ff1a and prox1 complemented each other in slow myofibril assembly, but they did not affect the expression of each other. These results demonstrate that ff1a functions in both slow and fast muscle morphogenesis in response to Hedgehog signaling, and this function parallels the activity of another slow muscle gene, prox1.     

Overexpression of Kelch domain containing-2 (mKlhdc2) inhibits differentiation and directed migration of C2C12 myoblasts

Targeted migration of muscle precursor cells to the anlagen of limb muscles is a complex process, which is only partially understood. We have used Lbx1 mutant mice, which are unable to establish correct migration paths of muscle precursor cells into the limbs to identify new genes involved in the accurate placement of myogenic cells in developing muscles. We found that mKlhdc2 (Kelch domain containing-2), a novel member of the family of Kelch domain containing proteins, is significantly downregulated in Lbx1 homozygous mutant embryos. Functional characterization of mKlhdc2 by targeted overexpression in 10T1/2 fibroblasts and C2C12 muscle cells rendered these cells unable to respond to chemoattractants such as HGF. Furthermore, C2C12 myoblasts overexpressing mKlhdc2 display altered cellular morphology and are unable to differentiate into mature myotubes. Our results suggest that a tightly controlled expression of mKlhdc2 is essential for a faithful execution of the myogenic differentiation and migration program.