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

PURPOSE Tumor-associated macrophages (TAMs) and the hyperactivation of phosphoinositide 3-kinase(PI3K)/AKT pathway are involved in the pathogenesis of Hodgkin lymphoma (HL) and affect disease outcome. Since the $\delta$ and $\gamma$ isoforms of PI3K are overexpressed in Hodgkin/Reed-Sternberg (HRS) cells and the tumor microenvironment (TME),we propose that the PI3K$\delta$/$\gamma$ inhibitor RP6530 might affect both HRS cells and TME,ultimately leading to an enhanced antitumor response. EXPERIMENTAL DESIGN HL cell lines (L-540,KM-H2 and L-428) and primary human macrophages were used to investigate the activity of RP6530 in vitro and in vivo in HL cell line xenografts. RESULTS In vitro,RP6530 besides killing and inhibiting the proliferation of HL cells,downregulated lactic acid metabolism,switching the activation of macrophages from an immunosuppressive M2-like phenotype to a more inflammatory M1-like state. By RNA sequencing,we define tumor glycolysis as a specific PI3K$\delta$/$\gamma$-dependent pathway implicated in the metabolic reprogramming of cancer cells. We identify the metabolic regulator Pyruvate Kinase M2 (PKM2) as the main mediator of tumor-induced immunosuppressive phenotype of macrophages. Furthermore,we show in human tumor xenografts that RP6530 repolarizes TAMs into pro-inflammatory macrophages and inhibits tumor vasculature,leading to tumor regression. Interestingly,HL patients experiencing objective responses (CR and PR) in a phase 1 trial using RP6530 showed a significant inhibition of circulating MDSCs and an average mean reduction in serum TARC levels of 40{\%} (range,4-76{\%}). CONCLUSIONS Our results support PI3K$\delta$/$\gamma$ inhibition as a novel therapeutic strategy that targets both malignant cells and the TME to treat HL patients. View Publication

Acute myeloid leukaemia (AML) is thought to be maintained by a small population of leukemic progenitor cells. To define the phenotype of such cells with long-term proliferative capacity in vitro and in vivo,we have used the production of leukemic clonogenic cells (CFU) after 2 to 8 weeks in suspension culture as a measure of these cells in vitro and compared their phenotype with that of cells capable of engrafting nonobese diabetic severe combined immune deficient (NOD/SCID) mice. Leukemic blast peripheral blood cells were evaluated for expression of CD34 and Thy-1 (CD90) antigens. The majority of AML blast cells at diagnosis lacked expression of Thy-1. Most primary CFU-blast and the CFU detected at up to 8 weeks from suspension cultures were CD34+/Thy-1-. AML cells that were capable of engrafting NOD/SCID mice were also found to have the CD34+/Thy-1- phenotype. However,significant engraftment was achieved using both CD34+/Thy-1- and CD34- subfractions from one AML M5 patient. These results suggest that while heterogeneity exists between individual patients,the leukemic progenitor cells that are capable of maintaining the disease in vitro and in vivo differ from normal hematopoietic progenitor cells in their lack of expression of Thy-1. View Publication

Aflatoxin B1 (AFB(1)) and fumonisin B1 (FB(1)) are mycotoxins widely found as cereal contaminants. Their immunotoxicities predispose to infectious diseases and may alter the tumor immunosurveillance of human and animals,but the mechanisms underlying have not been fully elucidated,and the induction of oxidative stress has been proposed as a probable mechanism. This work was aimed at evaluating in spleen mononuclear cells (SMC) from Wistar rats the effects of the exposure,in vitro for up to 48 h,to 20 μM AFB(1),10 μM FB(1) and AFB(1)-FB(1) mixture (MIX),over cellular oxidative status,as well as at elucidating the contribution of different reactive oxygen species (ROS) to biomolecular oxidative damage,the biochemical pathways involved,and the probable interaction of both toxins to induce oxidative stress. All the treatments increased total ROS and oxidation of biomolecules,with MIX having the greatest effects. However,only MIX increased superoxide anion radical. The main ROS involved in oxidation of proteins,lipids and DNA appear to be hydrogen peroxide and hydroxyl radical. The mitochondrial complex I and CYP450 were involved in the ROS generation induced by all treatments. The NADPH oxidase system was induced by FB1 and MIX. The arachidonic acid metabolism contributed to the ROS formation induced by AFB(1) and MIX. These results demonstrate that an interaction between AFB(1) and FB(1) occur in the oxidative stress induction,and show the biochemical pathways involved in ROS generation in SMC. The oxidative stress could mediate the AFB(1) and FB(1) individual and combined immunotoxicities. View Publication

Alzheimer's disease (AD) is among the most prevalent forms of dementia affecting the aging population,and pharmacological therapies to date have not been successful in preventing disease progression. Future therapeutic efforts may benefit from the development of models that enable basic investigation of early disease pathology. In particular,disease-relevant models based on human pluripotent stem cells (hPSCs) may be promising approaches to assess the impact of neurotoxic agents in AD on specific neuronal populations and thereby facilitate the development of novel interventions to avert early disease mechanisms. We implemented an efficient paradigm to convert hPSCs into enriched populations of cortical glutamatergic neurons emerging from dorsal forebrain neural progenitors,aided by modulating Sonic hedgehog (Shh) signaling. Since AD is generally known to be toxic to glutamatergic circuits,we exposed glutamatergic neurons derived from hESCs to an oligomeric pre-fibrillar forms of Aβ known as globulomers"� View Publication

Background The AAVS1 locus is viewed as a ‘safe harbor' for transgene insertion into human genome. In the present study,we report a new method for AAVS1 targeting in human-induced pluripotent stem cells (hiPSCs). Methods We have developed two baculoviral transduction systems: one to deliver zinc finger nuclease (ZFN) and a DNA donor template for site-specific gene insertion and another to mediate Cre recombinase-mediated cassette exchange system to replace the inserted transgene with a new transgene. Results Our ZFN system provided the targeted integration efficiency of a Neo-EGFP cassette of 93.8% in G418-selected,stable hiPSC colonies. Southern blotting analysis of 20 AASV1 targeted colonies revealed no random integration events. Among 24 colonies examined for mono- or biallelic AASV1 targeting,25% of them were biallelically modified. The selected hiPSCs displayed persistent enhanced green fluorescent protein expression and continued the expression of stem cell pluripotency markers. The hiPSCs maintained the ability to differentiate into three germ lineages in derived embryoid bodies and transgene expression was retained in the differentiated cells. After pre-including the loxP-docking sites into the Neo-EGFP cassette,we demonstrated that a baculovirus-Cre/loxP system could be used to facilitate the replacement of the Neo-EGFP cassette with another transgene cassette at the AAVS1 locus. Conclusions Given high targeting efficiency,stability in expression of inserted transgene and flexibility in transgene exchange,the approach reported in the present study holds potential for generating genetically-modified human pluripotent stem cells suitable for developmental biology research,drug development,regenerative medicine and gene therapy. Copyright textcopyright 2013 John Wiley & Sons,Ltd. View Publication

One of the differences between murine and human embryonic stem cells (ESCs) is the epigenetic state of the X chromosomes in female lines. Murine ESCs (mESCs) present two transcriptionally active Xs that will undergo the dosage compensation process of XCI upon differentiation,whereas most human ESCs (hESCs) spontaneously inactivate one X while keeping their pluripotency. Whether this reflects differences in embryonic development of mice and humans,or distinct culture requirements for the two kinds of pluripotent cells is not known. Recently it has been shown that hESCs established in physiological oxygen levels are in a stable pre-XCI state equivalent to that of mESCs,suggesting that culture in low oxygen concentration is enough to preserve that epigenetic state of the X chromosomes. Here we describe the establishment of two new lines of hESCs under physiological oxygen level and the characterization of the XCI state in the 46,XX line BR-5. We show that a fraction of undifferentiated cells present XIST RNA accumulation and single H3K27me foci,characteristic of the inactive X. Moreover,analysis of allele specific gene expression suggests that pluripotent BR-5 cells present completely skewed XCI. Our data indicate that physiological levels of oxygen are not sufficient for the stabilization of the pre-XCI state in hESCs. View Publication

Transcription factors NANOG,OCT4,and SOX2 regulate self-renewal and pluripotency in human embryonic stem (hES) cells; however,their expression profiles during early differentiation of hES cells are unclear. In this study,we used multiparameter flow cytometric assay to detect all three transcription factors (NANOG,OCT4,and SOX2) simultaneously at single cell level and monitored the changes in their expression during early differentiation towards endodermal lineage (induced by sodium butyrate). We observed at least four distinct populations of hES cells,characterized by specific expression patterns of NANOG,OCT4,and SOX2 and differentiation markers. Our results show that a single cell can express both differentiation and pluripotency markers at the same time,indicating a gradual mode of developmental transition in these cells. Notably,distinct regulation of SOX2 during early differentiation events was detected,highlighting the potential importance of this transcription factor for self-renewal of hES cells during differentiation. View Publication

Adhesion molecule signaling is critical to human pluripotent stem cell (hPSC) survival,self-renewal,and differentiation. Thus,hPSCs are grown as clumps of cells on feeder cell layers or poorly defined extracellular matrices such as Matrigel. We sought to define a small molecule that would initiate adhesion-based signaling to serve as a basis for a defined substrate for hPSC culture. Soluble angiopoeitin-1 (Ang-1)-derived peptide QHREDGS added to defined serum-free media increased hPSC colony cell number and size during long- and short-term culture when grown on feeder cell layers or Matrigel,i.e. on standard substrates,without affecting hPSC morphology,growth rate or the ability to differentiate into multiple lineages both invitro and invivo. Importantly,QHREDGS treatment decreased hPSC apoptosis during routine passaging and single-cell dissociation. Mechanistically,the interaction of QHREDGS with ??1-integrins increased expression of integrin-linked kinase (ILK),increased expression and activation of extracellular signal-regulated kinases 1/2 (ERK1/2),and decreased caspase-3/7 activity. QHREDGS immobilization to polyethylene glycol hydrogels significantly increased cell adhesion in a dose-dependent manner. We propose QHREDGS as a small molecule inhibitor of hPSC apoptosis and the basis of an affordable defined substrate for hPSC maintenance. ?? 2014 Elsevier Ltd. View Publication

Inflammatory breast cancer (IBC) is an angioinvasive and most aggressive type of advanced breast cancer characterized by rapid proliferation,chemoresistance,early metastatic development and poor prognosis. IBC tumors display a triple-negative breast cancer (TNBC) phenotype characterized by centrosome amplification,high grade of chromosomal instability (CIN) and low levels of expression of estrogen receptor α (ERα),progesterone receptor (PR) and HER-2 tyrosine kinase receptor. Since the TNBC cells lack these receptors necessary to promote tumor growth,common treatments such as endocrine therapy and molecular targeting of HER-2 receptor are ineffective for this subtype of breast cancer. To date,not a single targeted therapy has been approved for non-inflammatory and inflammatory TNBC tumors and combination of conventional cytotoxic chemotherapeutic agents remains the standard therapy. IBC tumors generally display activation of epithelial to mesenchymal transition (EMT) that is functionally linked to a CD44+/CD24-/Low stem-like phenotype. Development of EMT and consequent activation of stemness programming is responsible for invasion,tumor self-renewal and drug resistance leading to breast cancer progression,distant metastases and poor prognosis. In this study,we employed the luminal ER+ MCF-7 and the IBC SUM149PT breast cancer cell lines to establish the extent to which high grade of CIN and chemoresistance were mechanistically linked to the enrichment of CD44+/CD24low/- CSCs. Here,we demonstrate that SUM149PT cells displayed higher CIN than MCF-7 cells characterized by higher percentage of structural and numerical chromosomal aberrations. Moreover,centrosome amplification,cyclin E overexpression and phosphorylation of retinoblastoma (Rb) were restricted to the stem-like CD44+/CD24-/Low subpopulation isolated from SUM149PT cells. Significantly,CD44+/CD24-/Low CSCs displayed resistance to conventional chemotherapy but higher sensitivity to SU9516,a specific cyclin-dependent kinase 2 (Cdk2) inhibitor,demonstrating that aberrant activation of cyclin E/Cdk2 oncogenic signaling is essential for the maintenance and expansion of CD44+/CD24-/Low CSC subpopulation in IBC. In conclusion,our findings propose a novel therapeutic approach to restore chemosensitivity and delay recurrence of IBC tumors based on the combination of conventional chemotherapy with small molecule inhibitors of the Cdk2 cell cycle kinase. View Publication

Background Progressive T cell decline in aged humans is associated with a deficiency of naive (TN) and central memory (TCM) T cells. We have previously reported increased tumor necrosis factor-? (TNF-?)-induced apoptosis in TN and TCM T cells in aged humans; however,the molecular basis of increased apoptosis remains to be defined. Since expression of TNF receptors (TNFRs) was reported to be comparable in young and aged,we investigated signaling events downstream of TNFRs to understand the molecular basis of increased TNF-?-induced apoptosis in aged TN and TCM CD8+ cells. Results The expression of TRAF-2 and RIP,phosphorylation of JNK,IKK?/?,and I?B?,and activation of NF-?B activation were significantly decreased in TN and TCM CD8+ cells from aged subjects as compared to young controls. Furthermore,expression of A20,Bcl-xL,cIAP1,and FLIP-L and FLIP-S was significantly decreased in TN and TCM CD8+ cells from aged subjects. Conclusions These data demonstrate that an impaired expression/function of molecules downstream TNFR signaling pathway that confer survival signals contribute to increased apoptosis of TN and TCM CD8+ cells in aged humans. View Publication

Spinal cord injury (SCI) is one of the most debilitating injuries,and transplantation of stem cells in a scaffold is a promising strategy for treatment. However,stem cell treatment of SCI has been severely impaired by the increased generation of reactive oxygen species in the lesion microenvironment,which can lead to a high level of stem cell death and dysfunction. Herein,a MnO2 nanoparticle (NP)-dotted hydrogel is prepared through dispersion of MnO2 NPs in a PPFLMLLKGSTR peptide modified hyaluronic acid hydrogel. The peptide-modified hydrogel enables the adhesive growth of mesenchymal stem cells (MSCs) and nerve tissue bridging. The MnO2 NPs alleviate the oxidative environment,thereby effectively improving the viability of MSCs. Transplantation of MSCs in the multifunctional gel generates a significant motor function restoration on a long-span rat spinal cord transection model and induces an in vivo integration as well as neural differentiation of the implanted MSCs,leading to a highly efficient regeneration of central nervous spinal cord tissue. Therefore,the MnO2 NP-dotted hydrogel represents a promising strategy for stem-cell-based therapies of central nervous system diseases through the comprehensive regulation of pathological microenvironment complications. View Publication