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

Pronase treatment is used in the flow cytometry crossmatch (FCXM) to prevent nonspecific antibody binding on B cells. However,we have observed unexpected positive results with pronase-treated T cells in human immunodeficiency virus (HIV)-infected patients. In this study,25 HIV-infected patients without HLA antibodies were tested with pronase-treated and nontreated cells. HIV-positive sera were pretreated with reducing agents and preabsorbed with pronase-treated and nontreated T or B cells before crossmatching. All patients displayed FCXM reactivity with pronase-treated T cells but not with nontreated T cells. None of the patients exhibited FCXM reactivity with pronase-treated and nontreated B cells. These patients displayed FCXM reactivity with pronase-treated CD4+ and CD8+ T cells but not with their nontreated counterparts. Preabsorption with pronase-treated T cells reduced the T cell FCXM reactivity. Preabsorption with pronase-treated B cells or nontreated T and B cells did not have any effect on the T cell FCXM reactivity. Pretreatment with reducing agents did not affect the T cell FCXM reactivity. 15 of 21 HIV-infected kidney allograft recipients with pronase-treated T cell FCXM reactivity display long-term graft survival (1193±631days). These data indicate that HIV-infected patients have nondeleterious autoantibodies recognizing cryptic epitopes exposed by pronase on T cells. View Publication

Viruses have evolved an assortment of mechanisms for regulating the Akt signaling pathway to establish a cellular environment more favorable for viral replication. Myxoma virus (MYXV) is a rabbit-specific poxvirus that encodes many immunomodulatory factors,including an ankyrin repeat-containing host range protein termed M-T5 that functions to regulate tropism of MYXV for rabbit lymphocytes and certain human cancer cells. MYXV permissiveness in these human cancer cells is dependent upon the direct interaction between M-T5 and Akt,which has been shown to induce the kinase activity of Akt. In this study,an array of compounds that selectively manipulate Akt signaling was screened and we show that only a subset of Akt inhibitors significantly decreased the ability of MYXV to replicate in previously permissive human cancer cells. Furthermore,reduced viral replication efficiency was correlated with lower levels of phosphorylated Akt. In contrast,the PP2A-specific phosphatase inhibitor okadaic acid promoted increased Akt kinase activation and rescued MYXV replication in human cancer cells that did not previously support viral replication. Finally,phosphorylation of Akt at residue Thr308 was shown to dictate the physical interaction between Akt and M-T5,which then leads to phosphorylation of Ser473 and permits productive MYXV replication in these human cancer cells. The results of this study further characterize the mechanism by which M-T5 exploits the Akt signaling cascade and affirms this interaction as a major tropism determinant that regulates the replication efficiency of MYXV in human cancer cells. View Publication

CD8(+) T lymphocytes play a key role in host defense,in particular against important persistent viruses,although the critical functional properties of such cells in tissue are not fully defined. We have previously observed that CD8(+) T cells specific for tissue-localized viruses such as hepatitis C virus express high levels of the C-type lectin CD161. To explore the significance of this,we examined CD8(+)CD161(+) T cells in healthy donors and those with hepatitis C virus and defined a population of CD8(+) T cells with distinct homing and functional properties. These cells express high levels of CD161 and a pattern of molecules consistent with type 17 differentiation,including cytokines (e.g.,IL-17,IL-22),transcription factors (e.g.,retinoic acid-related orphan receptor gamma-t,P = 6 x 10(-9); RUNX2,P = 0.004),cytokine receptors (e.g.,IL-23R,P = 2 x 10(-7); IL-18 receptor,P = 4 x 10(-6)),and chemokine receptors (e.g.,CCR6,P = 3 x 10(-8); CXCR6,P = 3 x 10(-7); CCR2,P = 4 x 10(-7)). CD161(+)CD8(+) T cells were markedly enriched in tissue samples and coexpressed IL-17 with high levels of IFN-gamma and/or IL-22. The levels of polyfunctional cells in tissue was most marked in those with mild disease (P = 0.0006). These data define a T cell lineage that is present already in cord blood and represents as many as one in six circulating CD8(+) T cells in normal humans and a substantial fraction of tissue-infiltrating CD8(+) T cells in chronic inflammation. Such cells play a role in the pathogenesis of chronic hepatitis and arthritis and potentially in other infectious and inflammatory diseases of man. View Publication

BACKGROUND Patient-derived tumor models are the new standard for pre-clinical drug testing and biomarker discovery. However,the emerging technology of primary pancreatic cancer organoids has not yet been broadly implemented in research,and complex organotypic models using organoids in co-culture with stromal and immune cellular components of the tumor have yet to be established. In this study,our objective was to develop and characterize pancreatic cancer organoids and multi-cell type organotypic co-culture models to demonstrate their applicability to the study of pancreatic cancer. METHODS We employed organoid culture methods and flow cytometric,cytologic,immunofluorescent and immunohistochemical methods to develop and characterize patient-derived pancreatic cancer organoids and multi-cell type organotypic co-culture models of the tumor microenvironment. RESULTS We describe the culture and characterization of human pancreatic cancer organoids from resection,ascites and rapid autopsy sources and the derivation of adherent tumor cell monocultures and tumor-associated fibroblasts from these sources. Primary human organoids displayed tumor-like cellular morphology,tissue architecture and polarity in contrast to cell line spheroids,which formed homogenous,non-lumen forming spheres. Importantly,we demonstrate the construction of complex organotypic models of tumor,stromal and immune components of the tumor microenvironment. Activation of myofibroblast-like cancer associated fibroblasts and tumor-dependent lymphocyte infiltration were observed in these models. CONCLUSIONS These studies provide the first report of novel and disease-relevant 3D in-vitro models representing pancreatic tumor,stromal and immune components using primary organoid co-cultures representative of the tumor-microenvironment. These models promise to facilitate the study of tumor-stroma and tumor-immune interaction and may be valuable for the assessment of immunotherapeutics such as checkpoint inhibitors in the context of T-cell infiltration. View Publication

Human induced pluripotent stem cell (hiPSC) utility is limited by variations in the ability of these cells to undergo lineage-specific differentiation. We have undertaken a transcriptional comparison of human embryonic stem cell (hESC) lines and hiPSC lines and have shown that hiPSCs are inferior in their ability to undergo neuroectodermal differentiation. Among the differentially expressed candidates between hESCs and hiPSCs,we identified a mitochondrial protein,CHCHD2,whose expression seems to correlate with neuroectodermal differentiation potential of pluripotent stem cells. We provide evidence that hiPSC variability with respect to CHCHD2 expression and differentiation potential is caused by clonal variation during the reprogramming process and that CHCHD2 primes neuroectodermal differentiation of hESCs and hiPSCs by binding and sequestering SMAD4 to the mitochondria,resulting in suppression of the activity of the TGFβ signaling pathway. Using CHCHD2 as a marker for assessing and comparing the hiPSC clonal and/or line differentiation potential provides a tool for large scale differentiation and hiPSC banking studies. View Publication

Histone deacetylase (HDAC) inhibitors (HDI) induce endoplasmic reticulum (ER) stress and apoptosis,while promoting autophagy,which promotes cancer cell survival when apoptosis is compromised. Here,we determined the in vitro and in vivo activity of the combination of the pan-HDI panobinostat and the autophagy inhibitor chloroquine against human estrogen/progesterone receptor and HER2 (triple)-negative breast cancer (TNBC) cells. Treatment of MB-231 and SUM159PT cells with panobinostat disrupted the hsp90/histone deacetylase 6/HSF1/p97 complex,resulting in the upregulation of hsp. This was accompanied by the induction of enhanced autophagic flux as evidenced by increased expression of LC3B-II and the degradation of the autophagic substrate p62. Treatment with panobinostat also induced the accumulation and colocalization of p62 with LC3B-II in cytosolic foci as evidenced by immunofluorescent confocal microscopy. Inhibition of panobinostat-induced autophagic flux by chloroquine markedly induced the accumulation of polyubiquitylated proteins and p62,caused synergistic cell death of MB-231 and SUM159PT cells,and inhibited mammosphere formation in MB-231 cells,compared with treatment with each agent alone. Finally,in mouse mammary fat pad xenografts of MB-231 cells,a tumor size-dependent induction of heat shock response,ER stress and autophagy were observed. Cotreatment with panobinostat and chloroquine resulted in reduced tumor burden and increased the survival of MB-231 breast cancer xenografts. Collectively,our findings show that cotreatment with an autophagy inhibitor and pan-HDI,for example,chloroquine and panobinostat results in accumulation of toxic polyubiquitylated proteins,exerts superior inhibitory effects on TNBC cell growth,and increases the survival of TNBC xenografts. View Publication

The use of human pluripotent stem cells (hPSCs) in cell therapy is hindered by the tumorigenic risk from residual undifferentiated cells. Here we performed a high-throughput screen of over 52,000 small molecules and identified 15 pluripotent cell-specific inhibitors (PluriSIns),nine of which share a common structural moiety. The PluriSIns selectively eliminated hPSCs while sparing a large array of progenitor and differentiated cells. Cellular and molecular analyses demonstrated that the most selective compound,PluriSIn 1,induces ER stress,protein synthesis attenuation,and apoptosis in hPSCs. Close examination identified this molecule as an inhibitor of stearoyl-coA desaturase (SCD1),the key enzyme in oleic acid biosynthesis,revealing a unique role for lipid metabolism in hPSCs. PluriSIn 1 was also cytotoxic to mouse blastocysts,indicating that the dependence on oleate is inherent to the pluripotent state. Finally,application of PluriSIn 1 prevented teratoma formation from tumorigenic undifferentiated cells. These findings should increase the safety of hPSC-based treatments. ?? 2013 Elsevier Inc. View Publication

The t(16:16) and inv(16) are associated with FAB M4Eo myeloid leukemias and result in fusion of the CBFB gene to the MYH11 gene (encoding smooth muscle myosin heavy chain [SMMHC]). Knockout of CBFbeta causes embryonic lethality due to lack of definitive hematopoiesis. Although knock-in of CBFB-MYH11 is not sufficient to cause disease,expression increases the incidence of leukemia when combined with cooperating events. Although mouse models are valuable tools in the study of leukemogenesis,little is known about the contribution of CBFbeta-SMMHC to human hematopoietic stem and progenitor cell self-renewal. We introduced the CBFbeta-MYH11 cDNA into human CD34+ cells via retroviral transduction. Transduced cells displayed an initial repression of progenitor activity but eventually dominated the culture,resulting in the proliferation of clonal populations for up to 7 months. Long-term cultures displayed a myelomonocytic morphology while retaining multilineage progenitor activity and engraftment in NOD/SCID-B2M-/- mice. Progenitor cells from long-term cultures showed altered expression of genes defining inv(16) identified in microarray studies of human patient samples. This system will be useful in examining the effects of CBFbeta-SMMHC on gene expression in the human preleukemic cell,in characterizing the effect of this oncogene on human stem cell biology,and in defining its contribution to the development of leukemia. View Publication

Recently,it has been shown that certain combinations of TLR ligands act in synergy to induce the release of IL-12 by DCs. In this study,we sought to define the critical parameters underlying TLR synergy. Our data show that TLR ligands act synergistically if MyD88- and TRIF-dependent ligands are combined. TLR4 uses both of these adaptor molecules,thus activation via TLR4 proved to be a synergistic event on its own. TLR synergy did not affect all aspects of DC activation but enhanced primarily the release of certain cytokines,particularly IL-12,whereas the expression of costimulatory molecules remained unchanged. Consequently,synergistic activation of DC did not affect their ability to induce T cell proliferation but resulted in T(H)1-biased responses in vitro and in vivo. Furthermore,we examined the impact of TLR ligand combinations on primary DC in vitro but observed only modest effects with a combination of CpG + Poly (I:C). However,noticeable synergy in terms of IL-12 production by DCs was detectable in vivo after systemic administration of CpG + Poly (I:C). Finally,we show that synergy is partially dependent on IFNAR signaling but does not require the release of IFNs to the enviroment,suggesting an autocrine action of type I IFNs. View Publication

Specification of distinct cell types from human embryonic stem cells (hESCs) is key to the potential application of these naïve pluripotent cells in regenerative medicine. Determination of the nontarget differentiated populations,which is lacking in the field,is also crucial. Here,we show an efficient differentiation of motor neurons ( approximately 50%) by a simple sequential application of retinoid acid and sonic hedgehog (SHH) in a chemically defined suspension culture. We also discovered that purmorphamine,a small molecule that activates the SHH pathway,could replace SHH for the generation of motor neurons. Immunocytochemical characterization indicated that cells differentiated from hESCs were nearly completely restricted to the ventral spinal progenitor fate (NKX2.2+,Irx3+,and Pax7-),with the exception of motor neurons (HB9+) and their progenitors (Olig2+). Thus,the directed neural differentiation system with small molecules,even without further purification,will facilitate basic and translational studies using human motoneurons at a minimal cost. View Publication

Luminal and myoepithelial cells have been separated from normal adult human breast epithelium using fluorescence activated cell sorting. Their isolation was based on the exclusive expression of two surface antigens,epithelial membrane antigen (EMA) and the common acute lymphoblastic leukaemia antigen (CALLA/CD10/neutral endopeptidase 24.11). Sorted luminal and myoepithelial cells displayed distinctively different morphologies when maintained in monolayer culture,differences which were enhanced by the addition of hydrocortisone,insulin and cholera toxin to the culture medium. The EMA-positive cells formed an attenuated monolayer with indistinct cell boundaries while CALLA-positive cells,by contrast,formed tightly packed arrays of refractile cells. The distribution of the cell type-specific markers cytokeratin 18 (luminal cells) and smooth muscle alpha-actin (myoepithelial cells) indicated that the sorted populations were approximately 98% pure. However,a significant minority (approximately 15%) of sorted luminal cells consistently expressed the basal-cell marker cytokeratin 14 in culture. A marked difference was noted in the proliferative behaviour of the two types of sorted cells,with myoepithelial cells dividing rapidly in response to the humoural additives,in contrast to the luminal cells which proliferated slowly. Both types of sorted cells could be cloned in the presence of feeder layers of mouse fibroblasts. Clones of luminal and myoepithelial cells were also distinctive; all spread" luminal clones were similar in appearance to each other� View Publication

Mouse embryonic stem (mES) cells will give rise to all of the cells of the adult mouse,but they failed to rejoin half of the DNA double-strand breaks (dsb) produced by high doses of ionizing radiation. A deficiency in DNA-PK(cs) appears to be responsible since mES cells expressed textless10% of the level of mouse embryo fibroblasts (MEFs) although Ku70/80 protein levels were higher than MEFs. However,the low level of DNA-PK(cs) found in wild-type cells appeared sufficient to allow rejoining of dsb after doses textless20Gy even in G1 phase cells. Inhibition of DNA-PK(cs) with wortmannin and NU7026 still sensitized mES cells to radiation confirming the importance of the residual DNA-PK(cs) at low doses. In contrast to wild-type cells,mES cells lacking H2AX,a histone protein involved in the DNA damage response,were radiosensitive but they rejoined double-strand breaks more rapidly. Consistent with more rapid dsb rejoining,H2AX(-/-) mES cells also expressed 6 times more DNA-PK(cs) than wild-type mES cells. Similar results were obtained for ATM(-/-) mES cells. Differentiation of mES cells led to an increase in DNA-PK(cs),an increase in dsb rejoining rate,and a decrease in Ku70/80. Unlike mouse ES,human ES cells were proficient in rejoining of dsb and expressed high levels of DNA-PK(cs). These results confirm the importance of homologous recombination in the accurate repair of double-strand breaks in mES cells,they help explain the chromosome abnormalities associated with deficiencies in H2AX and ATM,and they add to the growing list of differences in the way rodent and human cells deal with DNA damage. View Publication