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

Apoptosis and proliferation are two dynamically and tightly regulated processes that together maintain the homeostasis of renewable tissues. Anoikis is a subtype of apoptosis induced by detachment of adherent cells from the extracellular matrix. By using the defined mTeSR1 medium and collecting freshly detached cells,we found here that human pluripotent stem (PS) cells including embryonic stem (ES) cells and induced pluripotent stem cells are subject to constant anoikis in culture,which is escalated in the absence of basic fibroblast growth factor (bFGF). Withdrawal of bFGF also promotes apoptosis and differentiation of the remaining adherent cells without affecting their cell cycle progression. Insulin-like growth factor 2 (IGF2) has previously been reported to act downstream of FGF signaling to support self-renewal of human ES cells. However,we found that IGF2 cannot substitute bFGF in the TeSR1-supported culture,although endogenous IGF signaling is required to sustain self-renewal of human ES cells. On the other hand,all of the bFGF withdrawal effects observed here can be markedly prevented by the caspase inhibitor z-VAD-FMK. We further demonstrated that the bFGF-repressed anoikis is dependent on activation of ERK and AKT and associated with inhibition of Bcl-2-interacting mediator of cell death and the caspase-ROCK1-myosin signaling. Anoikis is independent of pre-detachment apoptosis and differentiation of the cells. Because previous studies of human PS cells have been focused on attached cells,our findings revealed a neglected role of bFGF in sustaining self-renewal of human PS cells: preventing them from anoikis via inhibition of caspase activation. View Publication

Scl and Lyl1 encode two related basic-helix-loop-helix transcription factors implicated in T cell acute lymphoblastic leukemia. Previous studies showed that Scl is essential for embryonic and adult erythropoiesis,while Lyl1 is important for B cell development. Single-knockout mice have not revealed an essential function for Scl or Lyl1 in adult hematopoietic stem cells (HSCs). To determine if maintenance of HSCs in single-knockout mice is due to functional redundancy,we generated Lyl1;Scl-conditional double-knockout mice. Here,we report a striking genetic interaction between the two genes,with a clear dose dependence for the presence of Scl or Lyl1 alleles for HSC function. Bone marrow repopulation assays and analyses demonstrated rapid loss of hematopoietic progenitors due to apoptosis. The function of HSCs could be rescued by a single allele of Lyl1 but not Scl. These results show that expression of at least one of these factors is essential for maintenance of adult HSC function. View Publication

The continued success of pluripotent stem cell research is ultimately dependent on access to reliable and defined reagents for the consistent culture and cryopreservation of undifferentiated,pluripotent cells. The development of defined and feeder-independent culture media has provided a platform for greater reproducibility and standardization in this field. Here we provide detailed protocols for the use of mTeSR™1 and TeSR™2 with various cell culture matrices as well as defined cryopreservation protocols for human embryonic and human induced pluripotent stem cells. View Publication

Cardiac malformations and disease are the leading causes of death in the United States in live-born infants and adults,respectively. In both of these cases,a decrease in the number of functional cardiomyocytes often results in improper growth of heart tissue,wound healing complications,and poor tissue repair. The field of cardiac tissue engineering seeks to address these concerns by developing cardiac patches created from a variety of biomaterial scaffolds to be used in surgical repair of the heart. These scaffolds should be fully degradable biomaterial systems with tunable properties such that the materials can be altered to meet the needs of both in vitro culture (e.g. disease modeling) and in vivo application (e.g. cardiac patch). Current platforms do not utilize both structural anisotropy and proper cell-matrix contacts to promote functional cardiac phenotypes and thus there is still a need for critically sized scaffolds that mimic both the structural and adhesive properties of native tissue. To address this need,we have developed a silk-based scaffold platform containing cardiac tissue-derived extracellular matrix (cECM). These silk-cECM composite scaffolds have tunable architectures,degradation rates,and mechanical properties. Subcutaneous implantation in rats demonstrated that addition of the cECM to aligned silk scaffold led to 99% endogenous cell infiltration and promoted vascularization of a critically sized scaffold (10 × 5 × 2.5 mm) after 4 weeks in vivo. In vitro,silk-cECM scaffolds maintained the HL-1 atrial cardiomyocytes and human embryonic stem cell-derived cardiomyocytes and promoted a more functional phenotype in both cell types. This class of hybrid silk-cECM anisotropic scaffolds offers new opportunities for developing more physiologically relevant tissues for cardiac repair and disease modeling. View Publication

The corneal epithelium is maintained by stem cells located at the periphery of the cornea in a region known as the limbus. Depletion of limbal stem cells (LSCs) results in limbal stem cell deficiency. Treatments for this disease are based on limbal replacement or transplantation of ex vivo expanded LSCs. It is,therefore,crucial to identify cell surface markers for LSCs that can be used for their enrichment and characterization. Aldehyde dehydrogenases (ALDHs) are enzymes which protect cells from the toxic effects of peroxidic aldehydes. In this manuscript,we show for the first time that ALDH1 is absent from the basal cells of the limbal and corneal epithelium. We separated limbal epithelial cells on the basis of ALDH activity and showed that ALDH(dim) cells expressed significantly higher levels of DeltaNp63 and ABCG2 as well as having a greater colony forming efficiency (CFE) when compared to ALDH(bright) cells. Large scale transcriptional analysis of these two populations led to identification of a new cell surface marker,RHAMM/HMMR,which is located in all layers of corneal epithelium and in the suprabasal layers of the limbal epithelium but is completely absent from the basal layer of the limbus. Our studies indicate that absence of RHAMM/HMMR expression is correlated with properties associated with LSCs. RHAMM/HMMR- limbal epithelial cells are smaller in size,express negligible CK3,have higher levels of DeltaNp63 and have a higher CFE compared to RHAMM/HMMR+ cells. Taken together these results suggest a putative role for RHAMM/ HMMR as a negative marker of stem cell containing limbal epithelial cells. Cell selection based on Hoechst exclusion and lack of cell surface RHAMM/HMMR expression resulted in increased colony forming efficiency compared to negative selection using RHAMM/HMMR alone or positive selection using Hoechst on its own. Combination of these two cell selection methods presents a novel method for LSC enrichment and characterization. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

To search for genes that promote hematopoietic development from human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs),we overexpressed several known hematopoietic regulator genes in hESC/iPSC-derived CD34(+)CD43(-) endothelial cells (ECs) enriched in hemogenic endothelium (HE). Among the genes tested,only Sox17,a gene encoding a transcription factor of the SOX family,promoted cell growth and supported expansion of CD34(+)CD43(+)CD45(-/low) cells expressing the HE marker VE-cadherin. SOX17 was expressed at high levels in CD34(+)CD43(-) ECs compared with low levels in CD34(+)CD43(+)CD45(-) pre-hematopoietic progenitor cells (pre-HPCs) and CD34(+)CD43(+)CD45(+) HPCs. Sox17-overexpressing cells formed semiadherent cell aggregates and generated few hematopoietic progenies. However,they retained hemogenic potential and gave rise to hematopoietic progenies on inactivation of Sox17. Global gene-expression analyses revealed that the CD34(+)CD43(+)CD45(-/low) cells expanded on overexpression of Sox17 are HE-like cells developmentally placed between ECs and pre-HPCs. Sox17 overexpression also reprogrammed both pre-HPCs and HPCs into HE-like cells. Genome-wide mapping of Sox17-binding sites revealed that Sox17 activates the transcription of key regulator genes for vasculogenesis,hematopoiesis,and erythrocyte differentiation directly. Depletion of SOX17 in CD34(+)CD43(-) ECs severely compromised their hemogenic activity. These findings suggest that SOX17 plays a key role in priming hemogenic potential in ECs,thereby regulating hematopoietic development from hESCs/iPSCs. View Publication

The generation of hematopoietic cells from human embryonic stem cells (hESC) has raised the possibility of using hESC as an alternative donor source for transplantation. However,functional defects identified in hESC-derived cells limit their use for full lymphohematopoietic reconstitution. The purpose of the present study was to define and quantitate key functional and molecular differences between CD34(+) hematopoietic progenitor subsets derived from hESC and CD34(+) subsets from umbilical cord blood (UCB) representing definitive hematopoiesis. Two distinct sub-populations were generated following mesodermal differentiation from hESC,a CD34(bright) (hematoendothelial) and CD34(dim) (hematopoietic-restricted) subset. Limiting dilution analysis revealed profound defects in clonal proliferation relative to UCB particularly in B lymphoid conditions. Transcription factors normally expressed at specific commitment stages during B lymphoid development from UCB-CD34(+) cells were aberrantly expressed in hESC-derived CD34(+) cells. Moreover,strong negative regulators of lymphopoiesis such as the adaptor protein LNK and CCAAT/enhancer-binding protein-α (CEBPα),were exclusively expressed in hESC-CD34(+) subsets. Knockdown of LNK lead to an increase in hematopoietic progenitors generated from hESCs. The aberrant molecular profile seen in hESC-CD34(+) cells represents persistence of transcripts first expressed in undifferentiated hESC and/or CD326-CD56(+) mesoderm progenitors,and may contribute to the block in definitive hematopoiesis from hESC. View Publication

The detection of primitive hematopoietic cells based on repopulation of immune-deficient mice is a powerful tool to characterize the human stem-cell compartment. Here,we identify a newly discovered human repopulating cell,distinct from previously identified repopulating cells,that initiates multilineage hematopoiesis in NOD/SCID mice. We call such cells CD34neg-SCID repopulating cells,or CD34neg-SRC. CD34neg-SRC are restricted to a Lin-CD34-CD38- population without detectable surface markers for multiple lineages and CD38 or those previously associated with stem cells (HLA-DR,Thy-1 and CD34). In contrast to CD34+ subfractions,Lin-CD34-CD38- cells have low clonogenicity in short-and long-term in vitro assays. The number of CD34neg-SRC increased in short-term suspension cultures in conditions that did not maintain SRC derived from CD34+ populations,providing independent biological evidence of their distinctiveness. The identification of this newly discovered cell demonstrates complexity of the organization of the human stem-cell compartment and has important implications for clinical applications involving stem-cell transplantation. View Publication