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

Differentiation of human pluripotent stem cells (hPSCs) into functional cell types is a crucial step in cell therapy. In the present study,we demonstrate that functional CD34(+) progenitor cells can be efficiently produced from human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) by combined modulation of 2 signaling pathways. A higher proportion of CD34(+) cells (∼ 20%) could be derived from hPSCs by inhibition of mitogen-activated protein kinase (MAPK) extracellular signal-regulated protein kinase (MEK)/extracellular signal-regulated kinase (ERK) signaling and activation of bone morphogenic protein-4 (BMP4) signaling. hPSC-derived CD34(+) progenitor cells further developed to endothelial and smooth muscle cells with functionality. Moreover,they contributed directly to neovasculogenesis in ischemic mouse hind limbs,thereby resulting in improved blood perfusion and limb salvage. Our results suggest that combined modulation of signaling pathways may be an efficient means of differentiating hPSCs into functional CD34(+) progenitor cells. View Publication

Mesenchymal stem cells have been implicated as playing an important role in stem cell engraftment. Recently,a new pluripotent population of umbilical cord blood (UCB) cells,unrestricted somatic stem cells (USSCs),with intrinsic and directable potential to develop into mesodermal,endodermal,and ectodermal fates,has been identified. In this study,we evaluated the capacity of ex vivo expanded USSCs to influence the homing of UCB-derived CD34(+) cells into the marrow and spleen of nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice. USSCs induced a significant enhancement of CD34(+) cell homing to both bone marrow and spleen (2.2 +/- 0.3- and 2.4 +/- 0.6-fold,respectively; p textless .05),with a magnitude similar to that induced by USSCs that had been thawed prior to transplantation. The effect of USSCs was dose-dependent and detectable at USSC:CD34(+) ratios of 1:1 and above. Enhanced marrow homing by USSCs was unaltered by extensive culture passaging of the cells,as similar enhancement was observed for both early-passage (passage 5 [p5]) and late-passage (p10) USSCs. The homing effect of USSCs was also reflected in an increased proportion of NOD/SCID mice exhibiting significant human cell engraftment 6 weeks after transplantation,with a similar distribution of myeloid and lymphoid components. USSCs enhanced the homing of cellular products of ex vivo expanded UCB lineage-negative (lin(-)) cells,generated in 14-day cultures by Selective Amplification. The relative proportion of homing CD34(+) cells within the culture-expanded cell population was unaltered by USSC cotransplantation. Production of stromal-derived factor-1 (SDF-1) by USSCs was detected by both gene expression and protein released into culture media of these cells. Knockdown of SDF-1 production by USSCs using lentiviral-SiRNA led to a significant (p textless .05) reduction in USSC-mediated enhancement of CD34(+) homing. Our findings thus suggest a clinical potential for using USSCs in facilitating homing and engraftment for cord blood transplant recipients. View Publication

OBJECTIVE: The aim of this narrative review was to evaluate the role of cancer stem cells (CSCs) and sex steroids in the pathophysiology of human breast cancer. METHODS: A key-word search was performed using the Scopus database. Preference was given to studies using human cells and tissues. RESULTS: Long-term estrogen-progestin hormone therapy is known to increase breast cancer risk,although the mechanisms are poorly understood. In the last few years,it has become clear that many human breast cancers contain CSCs,which may be responsible for much of the tumor's malignant behavior. Very recently,the impact of estrogen,progesterone,and progestins on breast CSCs and their progeny has been studied and clarified. Most breast CSCs are estrogen receptor negative and progesterone receptor negative,although some intermediary progenitor forms have hormone receptors,especially progesterone receptor. Most mature human breast cancer cellsare estrogen receptor positive and can thus be stimulated by estrogen. Breast CSCs usually elaborate CD44+,CD24j/low and/or ALDEFLUOR+ cell markers and are lineage markers negative. One of the main roles of progesterone and progestin seems to be on certain breast cancer stem intermediate forms,inducing them to revert back to a more primitive breast CSC form. CONCLUSIONS: As the pathophysiology of human breast CSC is clarified,it is probable that this will lead to novel,effective breast cancer treatments and,perhaps,new breast cancer preventive agents. This research may also lead to safer hormone therapy regimens. View Publication

Human pluripotent stem (hPS) cells such as human embryonic stem (hES) and induced pluripotent stem (hiPS) cells are vulnerable under single cell conditions,which hampers practical applications; yet,the mechanisms underlying this cell death remain elusive. In this paper,we demonstrate that treatment with a specific inhibitor of non-muscle myosin II (NMII),blebbistatin,enhances the survival of hPS cells under clonal density and suspension conditions,and,in combination with a synthetic matrix,supports a fully defined environment for self-renewal. Consistent with this,genetically engineered mouse embryonic stem cells lacking an isoform of NMII heavy chain (NMHCII),or hES cells expressing a short hairpin RNA to knock down NMHCII,show greater viability than controls. Moreover,NMII inhibition increases the expression of self-renewal regulators Oct3/4 and Nanog,suggesting a mechanistic connection between NMII and self-renewal. These results underscore the importance of the molecular motor,NMII,as a novel target for chemically engineering the survival and self-renewal of hPS cells. View Publication

Thyroid carcinoma is the most common endocrine malignancy and the first cause of death among endocrine cancers. We show that the tumorigenic capacity in thyroid cancer is confined in a small subpopulation of stem-like cells with high aldehyde dehydrogenase (ALDH(high)) activity and unlimited replication potential. ALDH(high) cells can be expanded indefinitely in vitro as tumor spheres,which retain the tumorigenic potential upon delivery in immunocompromised mice. Orthotopic injection of minute numbers of thyroid cancer stem cells recapitulates the behavior of the parental tumor,including the aggressive metastatic features of undifferentiated thyroid carcinomas,which are sustained by constitutive activation of cMet and Akt in thyroid cancer stem cells. The identification of tumorigenic and metastagenic thyroid cancer cells may provide unprecedented preclinical tools for development and preclinical validation of novel targeted therapies. View Publication

The reprogramming of human somatic cells to induced pluripotent stem (hiPS) cells enables the possibility of generating patient-specific autologous cells for regenerative medicine. A number of human somatic cell types have been reported to generate hiPS cells,including fibroblasts,keratinocytes and peripheral blood cells,with variable reprogramming efficiencies and kinetics. Here,we show that human astrocytes can also be reprogrammed into hiPS (ASThiPS) cells,with similar efficiencies to keratinocytes,which are currently reported to have one of the highest somatic reprogramming efficiencies. ASThiPS lines were indistinguishable from human embryonic stem (ES) cells based on the expression of pluripotent markers and the ability to differentiate into the three embryonic germ layers in vitro by embryoid body generation and in vivo by teratoma formation after injection into immunodeficient mice. Our data demonstrates that a human differentiated neural cell type can be reprogrammed to pluripotency and is consistent with the universality of the somatic reprogramming procedure. View Publication

Routine commercial and clinical applications of human pluripotent stem cells (hPSCs) and their progenies will require increasing cell quantities that cannot be provided by conventional adherent culture technologies. Here we describe a straightforward culture protocol for the expansion of undifferentiated human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) in suspension culture. This culture technique was successfully tested on two hiPSC clones,three hESC lines and on a nonhuman primate ESC line. It is based on a defined medium and single-cell inoculation,but it does not require culture preadaptation,use of microcarriers or any other matrices. Over a time course of 4-7 d,hPSCs can be expanded up to sixfold. Preparation of a high-density culture and its subsequent translation to scalable stirred suspension in Erlenmeyer flasks and stirred spinner flasks are also feasible. Importantly,hPSCs maintain pluripotency and karyotype stability for more than ten passages. View Publication

Histone deacetylases (HDAC) are key enzymes in the epigenetic control of gene expression. Recently,inhibitors of class I and class II HDAC have been successfully employed for the treatment of different inflammatory diseases such as rheumatoid arthritis,colitis,airway inflammation and asthma. So far,little is known so far about a similar therapeutic effect of inhibitors specifically directed against sirtuins,the class III HDAC. In this study,we investigated the expression and localization of endogenous sirtuins in primary human dermal microvascular endothelial cells (HDMEC),a cell type playing a key role in the development and maintenance of skin inflammation. We then examined the biological activity of sirtinol,a specific sirtuin inhibitor,in HDMEC response to pro-inflammatory cytokines. We found that,even though sirtinol treatment alone affected only long-term cell proliferation,it diminishes HDMEC inflammatory responses to tumor necrosis factor (TNF)α and interleukin (IL)-1β. In fact,sirtinol significantly reduced membrane expression of adhesion molecules in TNFã- or IL-1β-stimulated cells,as well as the amount of CXCL10 and CCL2 released by HDMEC following TNFα treatment. Notably,sirtinol drastically decreased monocyte adhesion on activated HDMEC. Using selective inhibitors for Sirt1 and Sirt2,we showed a predominant involvement of Sirt1 inhibition in the modulation of adhesion molecule expression and monocyte adhesion on activated HDMEC. Finally,we demonstrated the in vivo expression of Sirt1 in the dermal vessels of normal and psoriatic skin. Altogether,these findings indicated that sirtuins may represent a promising therapeutic target for the treatment of inflammatory skin diseases characterized by a prominent microvessel involvement. View Publication

Human pluripotent stem cells (hPSC) hold great promise as models for understanding disease and as a source of cells for transplantation therapies. However,the lack of simple,robust and efficient culture methods remains a significant obstacle for realizing the utility of hPSCs. Here we describe a platform for the culture of hPSCs that 1) allows for dissociation and replating of single cells,2) significantly increases viability and replating efficiency,3) improves freeze/thaw viability 4) improves cloning efficiency and 5) colony size variation. When combined with standard methodologies for genetic manipulation,we found that the enhanced culture platform allowed for lentiviral transduction rates of up to 95% and electroporation efficiencies of up to 25%,with a significant increase in the total number of antibiotic-selected colonies for screening for homologous recombination. We further demonstrated the utility of the enhanced culture platform by successfully targeting the ISL1 locus. We conclude that many of the difficulties associated with culturing and genetic manipulation of hPSCs can be addressed with optimized culture conditions,and we suggest that the use of the enhanced culture platform could greatly improve the ease of handling and general utility of hPSCs. View Publication

The utility of human pluripotent stem cells is dependent on efficient differentiation protocols that convert these cells into relevant adult cell types. Here we report the robust and efficient differentiation of human pluripotent stem cells into white or brown adipocytes. We found that inducible expression of PPARG2 alone or combined with CEBPB and/or PRDM16 in mesenchymal progenitor cells derived from pluripotent stem cells programmed their development towards a white or brown adipocyte cell fate with efficiencies of 85%-90%. These adipocytes retained their identity independent of transgene expression,could be maintained in culture for several weeks,expressed mature markers and had mature functional properties such as lipid catabolism and insulin-responsiveness. When transplanted into mice,the programmed cells gave rise to ectopic fat pads with the morphological and functional characteristics of white or brown adipose tissue. These results indicate that the cells could be used to faithfully model human disease View Publication

Recent technological advances in cell reprogramming by generation of induced pluripotent stem cells (iPSC) offer major perspectives in disease modelling and future hopes for providing novel stem cells sources in regenerative medicine. However,research on iPSC still requires refining the criteria of the pluripotency stage of these cells and exploration of their equivalent functionality to human embryonic stem cells (ESC). We report here on the use of infrared microspectroscopy to follow the spectral modification of somatic cells during the reprogramming process. We show that induced pluripotent stem cells (iPSC) adopt a chemical composition leading to a spectral signature indistinguishable from that of embryonic stem cells (ESC) and entirely different from that of the original somatic cells. Similarly,this technique allows a distinction to be made between partially and fully reprogrammed cells. We conclude that infrared microspectroscopy signature is a novel methodology to evaluate induced pluripotency and can be added to the tests currently used for this purpose. View Publication

Glycogen synthase kinase 3 (GSK-3) functions in the regulation of glycogen metabolism,in the cell cycle,and in immune responses and is targeted by some viruses to favor the viral life cycle. Inhibition of GSK-3 by 6-bromoindirubin-3'-acetoxime (BIO-acetoxime),a synthetic derivative of a compound from the Mediterranean mollusk Hexaplex trunculus,protects cells from varicella infection. In this study,we examined the effects of BIO-acetoxime against herpes simplex virus-1 (HSV-1) infection in human oral epithelial cells,which represent a natural target cell type. The results revealed that BIO-acetoxime relieves HSV-1-induced cytopathic effects and apoptosis. We also found that BIO-acetoxime reduced viral yields and the expression of different classes of viral proteins. Furthermore,addition of BIO-acetoxime before,simultaneously with or after HSV-1 infection significantly reduced viral yields. Collectively,BIO-acetoxime may suppress viral gene expression and protect oral epithelial cells from HSV-1 infection. These results suggest the possible involvement of GSK-3 in HSV-1 infection. View Publication