搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

Myocilin is a secreted glycoprotein that is expressed in ocular and non-ocular tissues. Mutations in the MYOCILIN gene may lead to juvenile- and adult-onset primary open-angle glaucoma. Here we report that myocilin is expressed in bone marrow-derived mesenchymal stem cells (MSCs) and plays a role in their differentiation into osteoblasts in vitro and in osteogenesis in vivo. Expression of myocilin was detected in MSCs derived from mouse,rat,and human bone marrow,with human MSCs exhibiting the highest level of myocilin expression. Expression of myocilin rose during the course of human MSC differentiation into osteoblasts but not into adipocytes,and treatment with exogenous myocilin further enhanced osteogenesis. MSCs derived from Myoc-null mice had a reduced ability to differentiate into the osteoblastic lineage,which was partially rescued by exogenous extracellular myocilin treatment. Myocilin also stimulated osteogenic differentiation of wild-type MSCs,which was associated with activation of the p38,Erk1/2,and JNK MAP kinase signaling pathways as well as up-regulated expression of the osteogenic transcription factors Runx2 and Dlx5. Finally,cortical bone thickness and trabecular volume,as well as the expression level of osteopontin,a known factor of bone remodeling and osteoblast differentiation,were reduced dramatically in the femurs of Myoc-null mice compared with wild-type mice. These data suggest that myocilin should be considered as a target for improving the bone regenerative potential of MSCs and may identify a new role for myocilin in bone formation and/or maintenance in vivo. View Publication

Neurogenin3+ (Ngn3+) progenitor cells in the developing pancreas give rise to five endocrine cell types secreting insulin,glucagon,somatostatin,pancreatic polypeptide and ghrelin. Gastrin is a hormone produced primarily by G-cells in the stomach,where it functions to stimulate acid secretion by gastric parietal cells. Gastrin is expressed in the embryonic pancreas and is common in islet cell tumors,but the lineage and regulators of pancreatic gastrin+ cells are not known. We report that gastrin is abundantly expressed in the embryonic pancreas and disappears soon after birth. Some gastrin+ cells in the developing pancreas co-express glucagon,ghrelin or pancreatic polypeptide,but many gastrin+ cells do not express any other islet hormone. Pancreatic gastrin+ cells express the transcription factors Nkx6.1,Nkx2.2 and low levels of Pdx1,and derive from Ngn3+ endocrine progenitor cells as shown by genetic lineage tracing. Using mice deficient for key transcription factors we show that gastrin expression depends on Ngn3,Nkx2.2,NeuroD1 and Arx,but not Pax4 or Pax6. Finally,gastrin expression is induced upon differentiation of human embryonic stem cells to pancreatic endocrine cells expressing insulin. Thus,gastrin+ cells are a distinct endocrine cell type in the pancreas and an alternative fate of Ngn3+ cells. View Publication

Human mesenchymal stem cells (hMSCs) are capable of differentiating into several cell types including adipocytes,osteoblasts,and chondrocytes,under appropriate culture conditions. We found that SP600125,an inhibitor of Jun N-terminal kinase (JNK),promoted adipogenesis whereas it repressed osteogenesis from hMSCs. SP600125 increased the expression of adipogenic transcription factors,CCAAT/enhancer-binding proteins alpha and beta as well as peroxisome proliferator-activated receptor gamma2,which suggested that the chemical acted on the early steps of transcriptional regulatory cascade in adipogenesis. A gene reporter assay showed that SP600125 and a dominant negative JNK promoted a transcriptional activity dependent on the cAMP-response element (CRE). Thus,JNK represses adipogenesis from hMSCs probably by,at least in part,inhibiting the transactivating function of CRE-binding protein. Another action of JNK,phosphorylation at Ser(307) of insulin receptor substrate-1,was also predicted to contribute to the repression of adipogenesis. View Publication

Valproic acid (VPA) has been used as an anticonvulsant agent for the treatment of epilepsy,as well as a mood stabilizer for the treatment of bipolar disorder,for several decades. The mechanism of action for these effects remains to be elucidated and is most likely multifactorial. Recently,VPA has been reported to inhibit histone deacetylase (HDAC) and HDAC has been reported to play roles in differentiation of mammalian cells. In this study,the effects of HDAC inhibitors on differentiation and proliferation of human adipose tissue-derived stromal cells (hADSC) and bone marrow stromal cells (hBMSC) were determined. VPA increased osteogenic differentiation in a dose dependent manner. The pretreatment of VPA before induction of differentiation also showed stimulatory effects on osteogenic differentiation of hMSC. Trichostatin A (TSA),another HDAC inhibitor,also increased osteogenic differentiation,whereas valpromide (VPM),a structural analog of VPA which does not possess HDAC inhibitory effects,did not show any effect on osteogenic differentiation on hADSC. RT-PCR and Real-time PCR analysis revealed that VPA treatment increased osterix,osteopontin,BMP-2,and Runx2 expression. The addition of noggin inhibited VPA-induced potentiation of osteogenic differentiation. VPA inhibited proliferation of hADSC and hBMSC. Our results suggest that VPA enhance osteogenic differentiation,probably due to inhibition of HDAC,and could be useful for in vivo bone engineering using hMSC. View Publication

Maintenance of pluripotency is crucial to the mammalian embryo's ability to generate the extra-embryonic and embryonic tissues that are needed for intrauterine survival and foetal development. The recent establishment of embryonic stem cells from human blastocysts (hESCs) provides an opportunity to identify the factors supporting pluripotency at early stages of human development. Using this in vitro model,we have recently shown that Nodal can block neuronal differentiation,suggesting that TGFbeta family members are involved in cell fate decisions of hESCs,including preservation of their pluripotency. Here,we report that Activin/Nodal signalling through Smad2/3 activation is necessary to maintain the pluripotent status of hESCs. Inhibition of Activin/Nodal signalling by follistatin and by overexpression of Lefty or Cerberus-Short,or by the Activin receptor inhibitor SB431542,precipitates hESC differentiation. Nevertheless,neither Nodal nor Activin is sufficient to sustain long-term hESC growth in a chemically defined medium without serum. Recent studies have shown that FGF2 can also maintain long-term expression of pluripotency markers,and we find that inhibition of the FGF signalling pathway by the tyrosine kinase inhibitor SU5402 causes hESC differentiation. However,this effect of FGF on hESC pluripotency depends on Activin/Nodal signalling,because it is blocked by SB431542. Finally,long-term maintenance of in-vitro pluripotency can be achieved with a combination of Activin or Nodal plus FGF2 in the absence of feeder-cell layers,conditioned medium or Serum Replacer. These findings suggest that the Activin/Nodal pathway maintains pluripotency through mechanism(s) in which FGF acts as a competence factor and therefore provide further evidence of distinct mechanisms for preservation of pluripotency in mouse and human ESCs. View Publication

The prospect of manipulating endogenous neural stem cells to replace damaged tissue and correct functional deficits offers a novel mechanism for treating a variety of CNS disorders. The aim of this study was to investigate pathways controlling neurite outgrowth in human neural precursor cells,in particular in response to platelet-derived growth factor (PDGF). PDGF-AA,-AB and -BB were found to initiate calcium signalling and produce robust increases in neurite outgrowth. PDGF-induced outgrowth of Tuj1-positive precursors was abolished by the addition of EGTA,suggesting that calcium entry is a critical part of the signalling pathway. Wortmannin and PD098059 failed to inhibit PDGF-induced outgrowth. Clostridium Toxin B increased the amount of PDGF-induced neurite branching but had no effect on basal levels. In contrast,WHI-P154,an inhibitor of Janus protein tyrosine kinase (JAK3),Hck and Syk,prevented PDGF-induced neurite outgrowth. PDGF activates multiple signalling pathways with considerable potential for cross-talk. This study has highlighted the complexity of the pathways leading to neurite outgrowth in human neural precursors,and provided initial evidence to suggest that calcium entry is critical in producing the morphological changes observed. View Publication

This protocol describes detailed procedures for the fluorescent high-throughput screening of small molecules that induce neurogenesis in cultures of skeletal muscle cells. The detection of neurogenesis relies on a fluorescent dye,FM 1-43,which is used to study the neuronal property of depolarization-induced synaptic vesicle recycling. Thus,small molecules with neurogenesis-inducing activity in skeletal muscle cells can be rapidly identified by measuring the fluorescence intensity of the treated cells using a fluorescent microplate reader. This protocol uses murine myoblast C2C12 cells for screening,which are readily available and relatively easy to culture. Neurogenesis of PC12 cells induced by nerve growth factor is employed as a positive control for this screening. The screening time for this protocol is 8 d,which also includes the procedure to detect depolarization-induced synaptic vesicle recycling using FM 1-43. View Publication

Chemokine stromal derived factor 1 (SDF-1) is involved in trafficking of hematopoietic stem cells (HSCs) from the bone marrow (BM) to peripheral blood (PB) and has been found to enhance postischemia angiogenesis. This study was aimed at investigating whether SDF-1 plays a role in differentiation of BM-derived c-kit(+) stem cells into endothelial progenitor cells (EPCs) and in ischemia-induced trafficking of stem cells from PB to ischemic tissues. We found that SDF-1 enhanced EPC number by promoting alpha(2),alpha(4),and alpha(5) integrin-mediated adhesion to fibronectin and collagen I. EPC differentiation was reduced in mitogen-stimulated c-kit(+) cells,while cytokine withdrawal or the overexpression of the cyclin-dependent kinase (CDK) inhibitor p16(INK4) restored such differentiation,suggesting a link between control of cell cycle and EPC differentiation. We also analyzed the time course of SDF-1 expression in a mouse model of hind-limb ischemia. Shortly after femoral artery dissection,plasma SDF-1 levels were up-regulated,while SDF-1 expression in the bone marrow was down-regulated in a timely fashion with the increase in the percentage of PB progenitor cells. An increase in ischemic tissue expression of SDF-1 at RNA and protein level was also observed. Finally,using an in vivo assay such as injection of matrigel plugs,we found that SDF-1 improves formation of tubulelike structures by coinjected c-kit(+) cells. Our findings unravel a function for SDF-1 in increase of EPC number and formation of vascular structures by bone marrow progenitor cells. View Publication