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

OBJECTIVE: The molecular events that lead to human thyroid cell speciation remain incompletely characterized. It has been shown that overexpression of the regulatory transcription factors Pax8 and Nkx2-1 (ttf-1) directs murine embryonic stem (mES) cells to differentiate into thyroid follicular cells by initiating a transcriptional regulatory network. Such cells subsequently organized into three-dimensional follicular structures in the presence of extracellular matrix. In the current study,human embryonic stem (hES) cells were studied with the aim of recapitulating this scenario and producing functional human thyroid cell lines. METHODS: Reporter gene tagged pEZ-lentiviral vectors were used to express human PAX8-eGFP and NKX2-1-mCherry in the H9 hES cell line followed by differentiation into thyroid cells directed by Activin A and thyrotropin (TSH). RESULTS: Both transcription factors were expressed efficiently in hES cells expressing either PAX8,NKX2-1,or in combination in the hES cells,which had low endogenous expression of these transcription factors. Further differentiation of the double transfected cells showed the expression of thyroid-specific genes,including thyroglobulin (TG),thyroid peroxidase (TPO),the sodium/iodide symporter (NIS),and the TSH receptor (TSHR) as assessed by reverse transcription polymerase chain reaction and immunostaining. Most notably,the Activin/TSH-induced differentiation approach resulted in thyroid follicle formation and abundant TG protein expression within the follicular lumens. On stimulation with TSH,these hES-derived follicles were also capable of dose-dependent cAMP generation and radioiodine uptake,indicating functional thyroid epithelial cells. CONCLUSION: The induced expression of PAX8 and NKX2-1 in hES cells was followed by differentiation into thyroid epithelial cells and their commitment to form functional three-dimensional neo-follicular structures. The data provide proof of principal that hES cells can be committed to thyroid cell speciation under appropriate conditions. View Publication

After DNA replication,sister chromatids must be untangled,or decatenated,before mitosis so that chromatids do not tear during anaphase. Topoisomerase IIalpha (Topo IIalpha) is the major decatenating enzyme. Topo IIalpha inhibitors prevent decatenation,causing cells to arrest during mitosis. Here we report that acute myeloid leukemia cells fail to arrest at the mitotic decatenation checkpoint,and their progression through this checkpoint is regulated by the DNA repair component Metnase (also termed SETMAR). Metnase contains a SET histone methylase and transposase nuclease domain,and is a component of the nonhomologous end-joining DNA double-strand break repair pathway. Metnase interacts with Topo IIalpha and enhances its decatenation activity. Here we show that multiple types of acute leukemia cells have an attenuated mitotic arrest when decatenation is inhibited and that in an acute myeloid leukemia (AML) cell line this is mediated by Metnase. Of further importance,Metnase permits continued proliferation of these AML cells even in the presence of the clinical Topo IIalpha inhibitor VP-16. In vitro,purified Metnase prevents VP-16 inhibition of Topo IIalpha decatenation of tangled DNA. Thus,Metnase expression levels may predict AML resistance to Topo IIalpha inhibitors,and Metnase is a potential therapeutic target for small molecule interference. View Publication

Ovarian carcinoma immuno-reactive antigen domain containing 1(OCIAD1) single copy was knocked out generating an OCIAD1 heterozygous knockout human embryonic stem line named BJNhem20-OCIAD1-CRISPR-20. The line was generated using CRISPR-Cas9D10A double nickase knockout strategy (Mali et al.,2013). View Publication

The Kit receptor functions in hematopoiesis,lymphocyte development,gastrointestinal tract motility,melanogenesis,and gametogenesis. To investigate the roles of different Kit signaling pathways in vivo,we have generated knock-in mice in which docking sites for PI 3-kinase (KitY719) or Src kinase (KitY567) have been mutated. Whereas steady-state hematopoiesis is normal in KitY719F/Y719F and KitY567F/Y567F mice,lymphopoiesis is affected differentially. The KitY567F mutation,but not the KitY719F mutation,blocks pro T cell and pro B cell development in an age-dependent manner. Thus,the Src family kinase,but not the PI 3-kinase docking site in Kit,mediates a critical signal for lymphocyte development. In agreement with these results,treatment of normal mice with the Kit tyrosine kinase inhibitor imatinib (Gleevec) leads to deficits in pro T and pro B cell development,similar to those seen in KitY567F/Y567F and KitW/W mice. The two mutations do not affect embryonic gametogenesis but the KitY719F mutation blocks spermatogenesis at the spermatogonial stages and in contrast the KitY567F mutation does not affect this process. Therefore,Kit-mediated PI 3-kinase signaling and Src kinase family signaling is highly specific for different cellular contexts in vivo. View Publication

Purinergic signaling mediated by P2 receptors (P2Rs) plays important roles in embryonic and stem cell development. However,how it mediates Ca2+ signals in human embryonic stem cells (hESCs) and derived cardiovascular progenitor cells (CVPCs) remains unclear. Here,we aimed to determine the role of P2Rs in mediating Ca2+ mobilizations of these cells. hESCs were induced to differentiate into CVPCs by our recently established methods. Gene expression of P2Rs and inositol 1,4,5-trisphosphate receptors (IP3Rs) was analyzed by quantitative/RT-PCR. IP3R3 knockdown (KD) or IP3R2 knockout (KO) hESCs were established by shRNA- or TALEN-mediated gene manipulations,respectively. Confocal imaging revealed that Ca2+ responses in CVPCs to ATP and UTP were more sensitive and stronger than those in hESCs. Consistently,the gene expression levels of most P2YRs except P2Y1 were increased in CVPCs. Suramin or PPADS blocked ATP-induced Ca2+ transients in hESCs but only partially inhibited those in CVPCs. Moreover,the P2Y1 receptor-specific antagonist MRS2279 abolished most ATP-induced Ca2+ signals in hESCs but not in CVPCs. P2Y1 receptor-specific agonist MRS2365 induced Ca2+ transients only in hESCs but not in CVPCs. Furthermore,IP3R2KO but not IP3R3KD decreased the proportion of hESCs responding to MRS2365. In contrast,both IP3R2 and IP3R3 contributed to UTP-induced Ca2+ responses while ATP-induced Ca2+ responses were more dependent on IP3R2 in the CVPCs. In conclusion,a predominant role of P2Y1 receptors in hESCs and a transition of P2Y-IP3R coupling in derived CVPCs are responsible for the differential Ca2+ mobilization between these cells. View Publication

Embryonic stem (ES) cells have the potential to serve as an alternative source of hematopoietic precursors for transplantation and for the study of hematopoietic cell development. Using coculture of human ES (hES) cells with OP9 bone marrow stromal cells,we were able to obtain up to 20% of CD34+ cells and isolate up to 10(7) CD34+ cells with more than 95% purity from a similar number of initially plated hES cells after 8 to 9 days of culture. The hES cell-derived CD34+ cells were highly enriched in colony-forming cells,cells expressing hematopoiesis-associated genes GATA-1,GATA-2,SCL/TAL1,and Flk-1,and retained clonogenic potential after in vitro expansion. CD34+ cells displayed the phenotype of primitive hematopoietic progenitors as defined by co-expression of CD90,CD117,and CD164,along with a lack of CD38 expression and contained aldehyde dehydrogenase-positive cells as well as cells with verapamil-sensitive ability to efflux rhodamine 123. When cultured on MS-5 stromal cells in the presence of stem cell factor,Flt3-L,interleukin 7 (IL-7),and IL-3,isolated CD34+ cells differentiated into lymphoid (B and natural killer cells) as well as myeloid (macrophages and granulocytes) lineages. These data indicate that CD34+ cells generated through hES/OP9 coculture display several features of definitive hematopoietic stem cells. View Publication

Heterologous immunity is recognized as a significant barrier to transplant tolerance. Whereas it has been established that pathogen-elicited memory T cells can have high or low affinity for cross-reactive allogeneic peptide-MHC,the role of TCR affinity during heterologous immunity has not been explored. We established a model with which to investigate the impact of TCR-priming affinity on memory T cell populations following a graft rechallenge. In contrast to high-affinity priming,low-affinity priming elicited fully differentiated memory T cells with a CD45RB(hi) status. High CD45RB status enabled robust secondary responses in vivo,as demonstrated by faster graft rejection kinetics and greater proliferative responses. CD45RB blockade prolonged graft survival in low affinity-primed mice,but not in high affinity-primed mice. Mechanistically,low affinity-primed memory CD8(+) T cells produced more IL-2 and significantly upregulated IL-2Rα expression during rechallenge. We found that CD45RB(hi) status was also a stable marker of priming affinity within polyclonal CD8(+) T cell populations. Following high-affinity rechallenge,low affinity-primed CD45RB(hi) cells became CD45RB(lo),demonstrating that CD45RB status acts as an affinity-based differentiation switch on CD8(+) T cells. Thus,these data establish a novel mechanism by which CD45 isoforms tune low affinity-primed memory CD8(+) T cells to become potent secondary effectors following heterologous rechallenge. These findings have direct implications for allogeneic heterologous immunity by demonstrating that despite a lower precursor frequency,low-affinity priming is sufficient to generate memory cells that mediate potent secondary responses against a cross-reactive graft challenge. View Publication

AG-490 is a member of the tyrphostin family of tyrosine kinase inhibitors. While AG-490 has been considered to be a Janus kinase (JAK)2-specific inhibitor,these conclusions were primarily drawn from acute lymphoblastic leukemia cells that lack readily detectable levels of JAK3. In the present study,evidence is provided that clearly demonstrates AG-490 potently suppresses IL-2-induced T cell proliferation,a non-JAK2-dependent signal,in a dose-dependent manner in T cell lines D10 and CTLL-2. AG-490 blocked JAK3 activation and phosphorylation of its downstream counterpart substrates,STATs. Inhibition of JAK3 by AG-490 also compromised the Shc/Ras/Raf/mitogen-activated protein kinase (MAPK) signaling pathways as measured by phosphorylation of Shc and extracellular signal-related kinase 1 and 2 (ERK1/2). AG-490 effectively inhibited tyrosine phosphorylation and DNA binding activities of several transcription factors including STAT1,-3,-5a,and -5b and activating protein-1 (AP-1) as judged by Western blot analysis and electrophoretic mobility shift assay. These data suggest that AG-490 is a potent inhibitor of the JAK3/STAT,JAK3/AP-1,and JAK3/MAPK pathways and their cellular consequences. Taken together,these findings support the notion that AG-490 possesses previously unrecognized clinical potential as an immunotherapeutic drug due to its inhibitory effects on T cell-derived signaling pathways. View Publication

BACKGROUND AND AIMS: Emerging evidence suggests that highly treatment-resistant tumour-initiating cells (TICs) play a central role in the pathogenesis of pancreatic cancer. Tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) is considered to be a novel anticancer agent; however,recent studies have shown that many pancreatic cancer cells are resistant to apoptosis induction by TRAIL due to TRAIL-activated nuclear factor-kappaB (NF-kappaB) signalling. Several chemopreventive agents are able to inhibit NF-kappaB,and favourable results have been obtained--for example,for the broccoli compound sulforaphane-in preventing metastasis in clinical studies. The aim of the study was to identify TICs in pancreatic carcinoma for analysis of resistance mechanisms and for definition of sensitising agents. METHODS: TICs were defined by expression patterns of a CD44(+)/CD24(-),CD44(+)/CD24(+) or CD44(+)/CD133(+) phenotype and correlation to growth in immunodeficient mice,differentiation grade,clonogenic growth,sphere formation,aldehyde dehydrogenase (ALDH) activity and therapy resistance. RESULTS: Mechanistically,specific binding of transcriptionally active cRel-containing NF-kappaB complexes in TICs was observed. Sulforaphane prevented NF-kappaB binding,downregulated apoptosis inhibitors and induced apoptosis,together with prevention of clonogenicity. Gemcitabine,the chemopreventive agents resveratrol and wogonin,and the death ligand TRAIL were less effective. In a xenograft model,sulforaphane strongly blocked tumour growth and angiogenesis,while combination with TRAIL had an additive effect without obvious cytotoxicity in normal cells. Freshly isolated patient tumour cells expressing markers for TICs could be sensitised by sulforaphane for TRAIL-induced cytotoxicity. CONCLUSION: The data provide new insights into resistance mechanisms of TICs and suggest the combination of sulforaphane with TRAIL as a promising strategy for targeting of pancreatic TICs. View Publication

Genes that are strongly repressed after B-cell activation are candidates for being inactivated,mutated,or repressed in B-cell malignancies. Krüppel-like factor 4 (Klf4),a gene down-regulated in activated murine B cells,is expressed at low levels in several types of human B-cell lineage lymphomas and leukemias. The human KLF4 gene has been identified as a tumor suppressor gene in colon and gastric cancer; in concordance with this,overexpression of KLF4 can suppress proliferation in several epithelial cell types. Here we investigate the effects of KLF4 on pro/pre-B-cell transformation by v-Abl and BCR-ABL,oncogenes that cause leukemia in mice and humans. We show that overexpression of KLF4 induces arrest and apoptosis in the G1 phase of the cell cycle. KLF4-mediated death,but not cell-cycle arrest,can be rescued by Bcl-XL overexpression. Transformed pro/pre-B cells expressing KLF4 display increased expression of p21CIP and decreased expression of c-Myc and cyclin D2. Tetracycline-inducible expression of KLF4 in B-cell progenitors of transgenic mice blocks transformation by BCR-ABL and depletes leukemic pre-B cells in vivo. Collectively,our work identifies KLF4 as a putative tumor suppressor in B-cell malignancies. View Publication

The blood-brain barrier (BBB) maintains brain homeostasis but also presents a major obstacle to brain drug delivery. Brain microvascular endothelial cells (BMECs) form the principal barrier and therefore represent the major cellular component of in vitro BBB models. Such models are often used for mechanistic studies of the BBB in health and disease and for drug screening. Recently,human induced pluripotent stem cells (iPSCs) have emerged as a new source for generating BMEC-like cells for use in in vitro human BBB studies. However,the inability to cryopreserve iPSC-BMECs has impeded implementation of this model by requiring a fresh differentiation to generate cells for each experiment. Cryopreservation of differentiated iPSC-BMECs would have a number of distinct advantages,including enabling production of larger scale lots,decreasing lead time to generate purified iPSC-BMEC cultures,and facilitating use of iPSC-BMECs in large-scale screening. In this study,we demonstrate that iPSC-BMECs can be successfully cryopreserved at multiple differentiation stages. Cryopreserved iPSC-BMECs retain high viability,express standard endothelial and BBB markers,and reach a high transendothelial electrical resistance (TEER) of ∼3000 Ωtextperiodcenteredcm(2),equivalent to nonfrozen controls. Rho-associated coiled coil-containing kinase (ROCK) inhibitor Y-27632 substantially increased survival and attachment of cryopreserved iPSC-BMECs,as well as stabilized TEER above 800 Ωtextperiodcenteredcm(2) out to 7 days post-thaw. Overall,cryopreservation will ease handling and storage of high-quality iPSC-BMECs,reducing a key barrier to greater implementation of these cells in modeling the human BBB. View Publication