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

Expression of miR-143 and miR-145 is reduced in hematopoietic stem/progenitor cells (HSPCs) of myelodysplastic syndrome patients with a deletion in the long arm of chromosome 5. Here we show that mice lacking miR-143/145 have impaired HSPC activity with depletion of functional hematopoietic stem cells (HSCs),but activation of progenitor cells (HPCs). We identify components of the transforming growth factor beta$ (TGFbeta$) pathway as key targets of miR-143/145. Enforced expression of the TGFbeta$ adaptor protein and miR-145 target,Disabled-2 (DAB2),recapitulates the HSC defect seen in miR-143/145-/- mice. Despite reduced HSC activity,older miR-143/145-/- and DAB2-expressing mice show elevated leukocyte counts associated with increased HPC activity. A subset of mice develop a serially transplantable myeloid malignancy,associated with expansion of HPC. Thus,miR-143/145 play a cell context-dependent role in HSPC function through regulation of TGFbeta$/DAB2 activation,and loss of these miRNAs creates a preleukemic state. View Publication

The MEK1 and MEK2 inhibitor GSK1120212 is currently in phase II/III clinical development. To identify predictive biomarkers,sensitivity to GSK1120212 was profiled for 218 solid tumor cell lines and 81 hematologic malignancy cell lines. For solid tumors,RAF/RAS mutation was a strong predictor of sensitivity. Among RAF/RAS mutant lines,co-occurring PIK3CA/PTEN mutations conferred a cytostatic response instead of a cytotoxic response for colon cancer cells that have the biggest representation of the comutations. Among KRAS mutant cell lines,transcriptomics analysis showed that cell lines with an expression pattern suggestive of epithelial-to-mesenchymal transition were less sensitive to GSK1120212. In addition,a proportion of cell lines from certain tissue types not known to carry frequent RAF/RAS mutations also seemed to be sensitive to GSK1120212. Among these were breast cancer cell lines,with triple negative breast cancer cell lines being more sensitive than cell lines from other breast cancer subtypes. We identified a single gene DUSP6,whose expression was associated with sensitivity to GSK1120212 and lack of expression associated with resistance irrelevant of RAF/RAS status. Among hematologic cell lines,acute myeloid leukemia and chronic myeloid leukemia cell lines were particularly sensitive. Overall,this comprehensive predictive biomarker analysis identified additional efficacy biomarkers for GSK1120212 in RAF/RAS mutant solid tumors and expanded the indication for GSK1120212 to patients who could benefit from this therapy despite the RAF/RAS wild-type status of their tumors. View Publication

Acute and chronic solid organ failures are costly disease processes with high mortality rates. Inflammation plays a central role in both acute and chronic organ failure,including heart,lung and kidney. In this regard,new therapies for these disorders have focused on inhibiting the mediators of inflammation,including cytokines and free radicals,with little or no success in clinical studies. Recent novel treatment strategies have been directed to cell-based rather than mediator-based approaches,designed to immunomodulate the deleterious effects of inflammation on organ function. One approach,cell therapy,replaces cells that were damaged in the acute or chronic disease process with stem/progenitor technology,to rebalance excessive inflammatory states. As an example of this approach,the use of an immunomodulatory role of renal epithelial progenitor cells to treat acute renal failure (ARF) and multiorgan failure arising from acute kidney injury is reviewed. A second therapeutic pathway,cell processing,does not incorporate stem/progenitor cells in the device,but rather biomimetic materials that remove and modulate the primary cellular components,which promote the worsening organ tissue injury associated with inflammation. The use of an immunomodulating leukocyte selective cytopheretic inhibitory device is also reviewed as an example of this cell processing approach. Both of these unconventional strategies have shown early clinical efficacy in pilot clinical trials and may transform the therapeutic approach to organ failure disorders. View Publication

A network of transcription factors (TFs) determines cell identity,but identity can be altered by overexpressing a combination of TFs. However,choosing and verifying combinations of TFs for specific cell differentiation have been daunting due to the large number of possible combinations of 2,000 TFs. Here,we report the identification of individual TFs for lineage-specific cell differentiation based on the correlation matrix of global gene expression profiles. The overexpression of identified TFs-Myod1,Mef2c,Esx1,Foxa1,Hnf4a,Gata2,Gata3,Myc,Elf5,Irf2,Elf1,Sfpi1,Ets1,Smad7,Nr2f1,Sox11,Dmrt1,Sox9,Foxg1,Sox2,or Ascl1-can direct efficient,specific,and rapid differentiation into myocytes,hepatocytes,blood cells,and neurons. Furthermore,transfection of synthetic mRNAs of TFs generates their appropriate target cells. These results demonstrate both the utility of this approach to identify potent TFs for cell differentiation,and the unanticipated capacity of single TFs directly guides differentiation to specific lineage fates. View Publication

We asked whether the hypoxia-regulated factor,insulin-like growth factor binding protein-3 (IGFBP3),could modulate stem cell factor receptor (c-kit+),stem cell antigen-1 (sca-1+),hematopoietic stem cell (HSC),or CD34+ endothelial precursor cell (EPC) function. Exposure of CD34+ EPCs to IGFBP3 resulted in rapid differentiation into endothelial cells and dose-dependent increases in cell migration and capillary tube formation. IGFBP3-expressing plasmid was injected into the vitreous of neonatal mice undergoing the oxygen-induced retinopathy (OIR) model. In separate studies,GFP-expressing HSCs were transfected with IGFBP3 plasmid and injected into the vitreous of OIR mice. Administering either IGFBP3 plasmid alone or HSCs transfected with the plasmid resulted in a similar reduction in areas of vasoobliteration,protection of the developing vasculature from hyperoxia-induced regression,and reduction in preretinal neovascularization compared to control plasmid or HSCs transfected with control plasmid. In conclusion,IGFBP3 mediates EPC migration,differentiation,and capillary formation in vitro. Targeted expression of IGFBP3 protects the vasculature from damage and promotes proper vascular repair after hyperoxic insult in the OIR model. IGFBP3 expression may represent a physiological adaptation to ischemia and potentially a therapeutic target for treatment of ischemic conditions. View Publication

Cdx1,Cdx2,and Cdx4 comprise the caudal-like Cdx gene family in mammals,whose homologues regulate hematopoietic development in zebrafish. Previously,we reported that overexpression of Cdx4 enhances hematopoietic potential from murine embryonic stem cells (ESCs). Here we compare the effect of ectopic Cdx1,Cdx2,and Cdx4 on the differentiation of murine ESC-derived hematopoietic progenitors. The 3 Cdx genes differentially influence the formation and differentiation of hematopoietic progenitors within a CD41(+)c-kit(+) population of embryoid body (EB)-derived cells. Cdx1 and Cdx4 enhance,whereas Cdx2 strongly inhibits,the hematopoietic potential of CD41(+)ckit(+) EB-derived cells,changes that are reflected by effects on hematopoietic lineage-specific and Hox gene expression. When we subject stromal cell and colony assay cultures of EB-derived hematopoietic progenitors to ectopic expression of Cdx genes,Cdx4 dramatically enhances,whereas Cdx1 and Cdx2 both inhibit hematopoietic activity,probably by blocking progenitor differentiation. These data demonstrate distinct effects of Cdx genes on hematopoietic progenitor formation and differentiation,insights that we are using to facilitate efforts at in vitro culture of hematopoietic progenitors from ESC. The behavior of Cdx genes in vitro suggests how derangement of these developmental regulators might contribute to leukemogenesis. View Publication

Heat-stable antigen (HSA)/CD24 is a cell surface molecule expressed by many cell types in the mouse. The molecule has an unusual structure because of its small protein core and extensive glycosylation. In order to study the functional role of the HSA-associated glycoconjugates we have isolated different forms of HSA. Using lectin analysis we provide evidence for extensive heterogeneity in carbohydrate composition and sialic acid linkage. Several HSA forms were recognized by mouse P-selectin-IgG but not E-selectin-IgG in ELISA. As expected,P-selectin-IgG also bound to L2/HNK-1-positive neural glycoproteins (L2-glycoproteins) and sulfatides but not to gangliosides and other control glycoproteins. The binding of P-selectin-IgG to L2-glycoproteins and HSA required bivalent cations. The reactivity to HSA was sensitive to sialidase treatment whereas the binding to L2-glycoproteins was not. Studies with alpha 2-6 sialytransferase indicated that alpha 2-6 linked sialic acid was not involved in the P-selectin binding to HSA. Surprisingly,an L2/HNK-1 specific antibody was found to cross-react with some HSA glycoforms and its binding correlated with P-selectin-IgG reactivity. L2/HNK-1-positive or L2/HNK-1-negative HSA glycoforms were also analyzed after coating to polystyrene beads. Only the L2/HNK-1-positive HSA coated beads were reactive with P-selectin-IgG and could bind to activated bend3 endothelioma cells expressing P-selectin whereas the L2/HNK-1-negative HSA beads did not. It is suggested that in its L2/HNK-1 modified form the HSA molecule on leukocytes could represent a ligand for P-selectin on endothelial cells or platelets. View Publication

The protein methyltransferases (PMTs) - which methylate protein lysine and arginine residues and have crucial roles in gene transcription - are emerging as an important group of enzymes that play key parts in normal physiology and human diseases. The collection of human PMTs is a large and diverse group of enzymes that have a common mechanism of catalysis. Here,we review the biological,biochemical and structural data that together present PMTs as a novel,chemically tractable target class for drug discovery. View Publication

Overexpression of the polycomb group protein enhancer of zeste homologue 2 (EZH2) occurs in diverse malignancies,including prostate cancer,breast cancer,and glioblastoma multiforme (GBM). Based on its ability to modulate transcription of key genes implicated in cell cycle control,DNA repair,and cell differentiation,EZH2 is believed to play a crucial role in tissue-specific stem cell maintenance and tumor development. Here,we show that targeted pharmacologic disruption of EZH2 by the S-adenosylhomocysteine hydrolase inhibitor 3-deazaneplanocin A (DZNep),or its specific downregulation by short hairpin RNA (shRNA),strongly impairs GBM cancer stem cell (CSC) self-renewal in vitro and tumor-initiating capacity in vivo. Using genome-wide expression analysis of DZNep-treated GBM CSCs,we found the expression of c-myc,recently reported to be essential for GBM CSCs,to be strongly repressed upon EZH2 depletion. Specific shRNA-mediated downregulation of EZH2 in combination with chromatin immunoprecipitation experiments revealed that c-myc is a direct target of EZH2 in GBM CSCs. Taken together,our observations provide evidence that direct transcriptional regulation of c-myc by EZH2 may constitute a novel mechanism underlying GBM CSC maintenance and suggest that EZH2 may be a valuable new therapeutic target for GBM management. View Publication

In cancer chemotherapy,one axiom,which has practically solidified into dogma,is that acquired resistance to antitumor agents or regimens,nearly inevitable in all patients with metastatic disease,remains unalterable and irreversible,rendering therapeutic rechallenge futile. However,the introduction of epigenetic therapies,including histone deacetylase inhibitors (HDACis) and DNA methyltransferase inhibitors (DNMTIs),provides oncologists,like computer programmers,with new techniques to overwrite" the modifiable software pattern of gene expression in tumors and challenge the "one and done" treatment prescription. Taking the epigenetic code-as-software analogy a step further� View Publication

Although structurally unrelated,the human killer cell Ig-like (KIR) genes and the rodent lectin-like Ly49 genes serve similar functional roles in NK cells. Moreover,both gene families display variegated,monoallelic expression patterns established at the transcriptional level. DNA methylation has been shown to play an important role in maintenance of expression patterns of KIR genes,which have CpG island promoters. The potential role of DNA methylation in expression of Ly49 genes,which have CpG-poor promoters,is unknown. In this study,we show that hypomethylation of the region encompassing the Pro-2 promoter of Ly49a and Ly49c in primary C57BL/6 NK cells correlates with expression of the gene. Using C57BL/6 x BALB/c F1 hybrid mice,we demonstrate that the expressed allele of Ly49a is hypomethylated while the nonexpressed allele is heavily methylated,indicating a role for epigenetics in maintaining monoallelic Ly49 gene expression. Furthermore,the Ly49a Pro-2 region is heavily methylated in fetal NK cells but variably methylated in nonlymphoid tissues. Finally,in apparent contrast to the KIR genes,we show that DNA methylation and the histone acetylation state of the Pro-2 region are strictly linked with Ly49a expression status. View Publication

As a critical immune checkpoint molecule,PD-L1 is expressed at significantly higher levels in multiple neoplastic tissues compared to normal ones. PD-L1/PD-1 axis is a critical target for tumor immunotherapy,blocking the PD-L1/PD-1 axis is recognized and has achieved unprecedented success in clinical applications. However,the clinical efficacy of therapies targeting the PD-1/PD-L1 pathway remains limited,emphasizing the need for the mechanistic elucidation of PD-1/PD-L1 expression. In this study,we found that RNF125 interacted with PD-L1 and regulated PD-L1 protein expression. Mechanistically,RNF125 promoted K48-linked polyubiquitination of PD-L1 and mediated its degradation. Notably,MC-38 and H22 cell lines with RNF125 knockout,transplanted in C57BL/6 mice,exhibited a higher PD-L1 level and faster tumor growth than their parental cell lines. In contrast,overexpression of RNF125 in MC-38 and H22 cells had the opposite effect,resulting in lower PD-L1 levels and delayed tumor growth compared with parental cell lines. In addition,immunohistochemical analysis of MC-38 tumors with RNF125 overexpression showed significantly increased infiltration of CD4+,CD8+ T cells and macrophages. Consistent with these findings,analyses using The Cancer Genome Atlas (TCGA) public database revealed a positive correlation of RNF125 expression with CD4+,CD8+ T cell and macrophage tumor infiltration. Moreover,RNF125 expression was significantly downregulated in several human cancer tissues,and was negatively correlated with the clinical stage of these tumors,and patients with higher RNF125 expression had better clinical outcomes. Our findings identify a novel mechanism for regulating PD-L1 expression and may provide a new strategy to increase the efficacy of immunotherapy. View Publication