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

Murine embryonic stem cells can differentiate in vitro to form cystic embryoid bodies (CEB) that contain different structures and cell types. The blood islands are one such structure that consist of immature hematopoietic cells surrounded by endothelial cells,the first identifiable vascular cells. CEBs differentiated in vitro developed blood islands initially,and subsequently these blood islands matured to form vascular channels containing hematopoietic cells. Phase contrast microscopy demonstrated the presence of channels in mature CEBs grown in suspension culture,and high resolution light and electron microscopy showed that the cells lining these channels were endothelial cells. The channels appeared less organized than the vasculature of the mature yolk sac. The hematopoietic cells were occasionally seen 'flowing' through the CEB channels,although their numbers were reduced relative to the yolk sac. Analysis of primary CEB cultures showed the presence of cells with two characteristics of endothelial cells: approximately 30% of the cells labelled with fluorescent acetylated low density lipoprotein and a small number of cells were positive for von Willebrand's factor by immunostaining. Thus we conclude that a primitive vasculature forms in CEBs differentiated in vitro,and that not only primary differentiation of endothelial cells but also some aspects of vascular maturation are intrinsic to this cell culture system. CEBs are therefore a useful model for the study of developmental blood vessel formation. View Publication

Current therapies for delayed- or nonunion bone fractures are still largely ineffective. Previous studies indicated that the VEGF homolog placental growth factor (PlGF) has a more significant role in disease than in health. Therefore we investigated the role of PlGF in a model of semi-stabilized bone fracture healing. Fracture repair in mice lacking PlGF was impaired and characterized by a massive accumulation of cartilage in the callus,reminiscent of delayed- or nonunion fractures. PlGF was required for the early recruitment of inflammatory cells and the vascularization of the fracture wound. Interestingly,however,PlGF also played a role in the subsequent stages of the repair process. Indeed in vivo and in vitro findings indicated that PlGF induced the proliferation and osteogenic differentiation of mesenchymal progenitors and stimulated cartilage turnover by particular MMPs. Later in the process,PlGF was required for the remodeling of the newly formed bone by stimulating osteoclast differentiation. As PlGF expression was increased throughout the process of bone repair and all the important cell types involved expressed its receptor VEGFR-1,the present data suggest that PlGF is required for mediating and coordinating the key aspects of fracture repair. Therefore PlGF may potentially offer therapeutic advantages for fracture repair. View Publication

Systemic lupus erythematosus (SLE) is characterized by increased vascular risk due to premature atherosclerosis independent of traditional risk factors. We previously proposed that IFN-α plays a crucial role in premature vascular damage in SLE. IFN-α alters the balance between endothelial cell apoptosis and vascular repair mediated by endothelial progenitor cells (EPCs) and myeloid circulating angiogenic cells (CACs). In this study,we demonstrate that IFN-α promotes an antiangiogenic signature in SLE and control EPCs/CACs,characterized by transcriptional repression of IL-1α and β,IL-1R1,and vascular endothelial growth factor A,and upregulation of IL-1R antagonist and the decoy receptor IL-1R2. IL-1β promotes significant improvement in the functional capacity of lupus EPCs/CACs,therefore abrogating the deleterious effects of IFN-α. The beneficial effects from IL-1 are mediated,at least in part,by increases in EPC/CAC proliferation,by decreases in EPC/CAC apoptosis,and by preventing the skewing of CACs toward nonangiogenic pathways. IFN-α induces STAT2 and 6 phosphorylation in EPCs/CACs,and JAK inhibition abrogates the transcriptional antiangiogenic changes induced by IFN-α in these cells. Immunohistochemistry of renal biopsies from patients with lupus nephritis,but not anti-neutrophil cytoplasmic Ab-positive vasculitis,showed this pathway to be operational in vivo,with increased IL-1R antagonist,downregulation of vascular endothelial growth factor A,and glomerular and blood vessel decreased capillary density,compared with controls. Our study introduces a novel putative pathway by which type I IFNs may interfere with vascular repair in SLE through repression of IL-1-dependent pathways. This could promote atherosclerosis and loss of renal function in this disease. View Publication

Adipose tissue development is associated with neovascularization,which might be exploited therapeutically. We investigated the neovasculogenesis antigenic profile and kinetics in adipose tissue-derived stromal cells (ADSCs) to understand the potential of ADSCs to generate new vessels. Murine and human visceral adipose tissues were processed with collagenase to obtain ADSCs from the stromal vascular fraction. Freshly isolated murine and human ADSCs featured the expression of early markers of endothelial differentiation [uptake of DiI-labeled acetylated LDL,CD133,CD34,kinase insert domain receptor (KDR)],but not markers for more mature endothelial cells (CD31 and von Willebrand factor). In methylcellulose medium,multilocular cells positive for Oil Red O staining appeared after 6 days. After 10 days,clusters of ADSCs spontaneously formed branched tubelike structures,which were strongly positive for CD34 and CD31,while losing their ability to undergo adipocyte differentiation. In Matrigel,in the presence of endothelial growth factors ADSCs formed branched tubelike structures. By clonal assays in methylcellulose we also determined the frequency of granulocyte-macrophage (CFU-GM) and erythroid (BFU-E) colony-forming units from ADSCs,compared with bone marrow-derived stromal cells (BMSCs) used as a positive control. After 4-14 days,BMSCs formed 8 +/- 3 BFU-E and 40 +/- 10 CFU-GM,while ADSCs never produced colonies of myeloid progenitors. The developing adipose tissue has neovasculogenic potential,based on the recruitment of local rather than circulating progenitors. Adipose tissue might therefore be a viable autonomous source of cells for postnatal neovascularization. View Publication

Endoglin is an accessory receptor for TGF-beta signaling and is required for normal hemangioblast,early hematopoietic,and vascular development. We have previously shown that an upstream enhancer,Eng -8,together with the promoter region,mediates robust endothelial expression yet is inactive in blood. To identify hematopoietic regulatory elements,we used array-based methods to determine chromatin accessibility across the entire locus. Subsequent transgenic analysis of candidate elements showed that an endothelial enhancer at Eng +9 when combined with an element at Eng +7 functions as a strong hemato-endothelial enhancer. Chromatin immunoprecipitation (ChIP)-chip analysis demonstrated specific binding of Ets factors to the promoter as well as to the -8,+7+9 enhancers in both blood and endothelial cells. By contrast Pu.1,an Ets factor specific to the blood lineage,and Gata2 binding was only detected in blood. Gata2 was bound only at +7 and GATA motifs were required for hematopoietic activity. This modular assembly of regulators gives blood and endothelial cells the regulatory freedom to independently fine-tune gene expression and emphasizes the role of regulatory divergence in driving functional divergence. View Publication

Establishment of angiogenic circuits that orchestrate blood vessel development and remodeling requires an exquisite balance between the activities of pro- and antiangiogenic factors. However,the logic that permits complex signal integration by vascular endothelium is poorly understood. We demonstrate that a neuropeptide� View Publication

Reduced microcirculation and diminished expression of growth factors contribute to wound healing impairment in diabetes. Placenta growth factor (PlGF),an angiogenic mediator promoting pathophysiological neovascularization,is expressed during cutaneous wound healing and improves wound closure by enhancing angiogenesis. By using streptozotocin-induced diabetic mice,we here demonstrate that PlGF induction is strongly reduced in diabetic wounds. Diabetic transgenic mice overexpressing PlGF in the skin displayed accelerated wound closure compared with diabetic wild-type littermates. Moreover,diabetic wound treatment with an adenovirus vector expressing the human PlGF gene (AdCMV.PlGF) significantly accelerated the healing process compared with wounds treated with a control vector. The analysis of treated wounds showed that PlGF gene transfer improved granulation tissue formation,maturation,and vascularization,as well as monocytes/macrophages local recruitment. Platelet-derived growth factor,fibroblast growth factor-2,and vascular endothelial growth factor mRNA levels were increased in AdCMV.PlGF-treated wounds,possibly enhancing PlGF-mediated effects. Finally,PlGF treatment stimulated cultured dermal fibroblast migration,pointing to a direct role of PlGF in accelerating granulation tissue maturation. In conclusion,our data indicate that reduced PlGF expression contributes to impaired wound healing in diabetes and that PlGF gene transfer to diabetic wounds exerts therapeutic activity by promoting different aspects of the repair process. View Publication

In ischemic congestive heart failure (CHF),anemia is associated with poor prognosis. Whether anemia develops in nonischemic CHF is uncertain. The hematopoietic inhibitors TNF-alpha and nitric oxide (NO) are activated in ischemic CHF. We examined whether mice with ischemic or nonischemic CHF develop anemia and whether TNF-alpha and NO are involved. We studied mice (n = 7-9 per group) with CHF either due to myocardial infarction (MI) or to overexpression of the Ca(2+)-binding protein calsequestrin (CSQ) or to induced cardiac disruption of the sarcoplasmic reticulum Ca(2+)-ATPase 2 gene (SERCA2 KO). Hematopoiesis was analyzed by colony formation of CD34(+) bone marrow cells. Hemoglobin concentration was 14.0 +/- 0.4 g/dl (mean +/- SD) in controls,while it was decreased to 10.1 +/- 0.4,9.7 +/- 0.4,and 9.6 +/- 0.3 g/dl in MI,CSQ,and SERCA2 KO,respectively (P textless 0.05). Colony numbers per 100,000 CD34(+) cells in the three CHF groups were reduced to 33 +/- 3 (MI),34 +/- 3 (CSQ),and 39 +/- 3 (SERCA2 KO) compared with 68 +/- 4 in controls (P textless 0.05). Plasma TNF-alpha nearly doubled in MI,and addition of anti-TNF-alpha antibody normalized colony formation. Inhibition of colony formation was completely abolished with blockade of endothelial NO synthase in CSQ and SERCA2 KO,but not in MI. In conclusion,the mechanism of anemia in CHF depends on the etiology of cardiac disease; whereas TNF-alpha impairs hematopoiesis in CHF following MI,NO inhibits blood cell formation in nonischemic murine CHF. View Publication