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

This review discusses the challenges of chemotherapy for human African trypanosomiasis (HAT). The few drugs registered for use against the disease are unsatisfactory for a number of reasons. HAT has two stages. In stage 1 the parasites proliferate in the haemolymphatic system. In stage 2 they invade the central nervous system and brain provoking progressive neurological dysfunction leading to symptoms that include the disrupted sleep wake patterns that give HAT its more common name of sleeping sickness. Targeting drugs to the central nervous system offers many challenges. However,it is the cost of drug development for diseases like HAT,that afflict exclusively people of the world's poorest populations,that has been the principal barrier to new drug development and has led to them becoming neglected. Here we review drugs currently registered for HAT,and also discuss the few compounds progressing through clinical trials. Finally we report on new initiatives that might allow progress to be made in developing new and satisfactory drugs for this terrible disease. View Publication

RATIONALE: Cardiomyocytes generated from human induced pluripotent stem cells (hiPSCs) are suggested as the most promising candidate to replenish cardiomyocyte loss in regenerative medicine. Little is known about their calcium homeostasis,the key process underlying excitation-contraction coupling. OBJECTIVE: We investigated the calcium handling properties of hiPSC-derived cardiomyocytes and compared with those from human embryonic stem cells (hESCs). METHODS AND RESULTS: We differentiated cardiomyocytes from hiPSCs (IMR90 and KS1) and hESCs (H7 and HES3) with established protocols. Beating outgrowths from embryoid bodies were typically observed 2 weeks after induction. Cells in these outgrowths were stained positively for tropomyosin and sarcomeric alpha-actinin. Reverse-transcription polymerase chain reaction studies demonstrated the expressions of cardiac-specific markers in both hiPSC- and hESC-derived cardiomyocytes. Calcium handling properties of 20-day-old hiPSC- and hESC-derived cardiomyocytes were investigated using fluorescence confocal microscopy. Compared with hESC-derived cardiomyocytes,spontaneous calcium transients from both lines of hiPSC-derived cardiomyocytes were of significantly smaller amplitude and with slower maximal upstroke velocity. Better caffeine-induced calcium handling kinetics in hESC-CMs indicates a higher sacroplasmic recticulum calcium store. Furthermore,in contrast with hESC-derived cardiomyocytes,ryanodine did not reduce the amplitudes,maximal upstroke and decay velocity of calcium transients of hiPSC-derived cardiomyocytes. In addition,spatial inhomogeneity in temporal properties of calcium transients across the width of cardiomyocytes was more pronounced in hiPSC-derived cardiomyocytes than their hESC counterpart as revealed line-scan calcium imaging. Expressions of the key calcium-handling proteins including ryanodine recptor-2 (RyR2),sacroplasmic recticulum calcium-ATPase (SERCA),junction (Jun) and triadin (TRDN),were significantly lower in hiPSC than in hESCs. CONCLUSIONS: The results indicate the calcium handling properties of hiPSC-derived cardiomyocytes are relatively immature to hESC counterparts. View Publication

Although transcriptional and posttranscriptional events are detected in RNA-Seq data from second-generation sequencing,full-length mRNA isoforms are not captured. On the other hand,third-generation sequencing,which yields much longer reads,has current limitations of lower raw accuracy and throughput. Here,we combine second-generation sequencing and third-generation sequencing with a custom-designed method for isoform identification and quantification to generate a high-confidence isoform dataset for human embryonic stem cells (hESCs). We report 8,084 RefSeq-annotated isoforms detected as full-length and an additional 5,459 isoforms predicted through statistical inference. Over one-third of these are novel isoforms,including 273 RNAs from gene loci that have not previously been identified. Further characterization of the novel loci indicates that a subset is expressed in pluripotent cells but not in diverse fetal and adult tissues; moreover,their reduced expression perturbs the network of pluripotency-associated genes. Results suggest that gene identification,even in well-characterized human cell lines and tissues,is likely far from complete. View Publication

Doxorubicin is a highly efficacious anti-cancer drug but causes cardiotoxicity in many patients. The mechanisms of doxorubicin-induced cardiotoxicity (DIC) remain incompletely understood. We investigated the characteristics and molecular mechanisms of DIC in human pluripotent stem cell-derived cardiomyocytes (hPSC-CMs). We found that doxorubicin causes dose-dependent increases in apoptotic and necrotic cell death,reactive oxygen species production,mitochondrial dysfunction and increased intracellular calcium concentration. We characterized genome-wide changes in gene expression caused by doxorubicin using RNA-seq,as well as electrophysiological abnormalities caused by doxorubicin with multi-electrode array technology. Finally,we show that CRISPR-Cas9-mediated disruption of TOP2B,a gene implicated in DIC in mouse studies,significantly reduces the sensitivity of hPSC-CMs to doxorubicin-induced double stranded DNA breaks and cell death. These data establish a human cellular model of DIC that recapitulates many of the cardinal features of this adverse drug reaction and could enable screening for protective agents against DIC as well as assessment of genetic variants involved in doxorubicin response. View Publication

The Plasmodium falciparum reticulocyte-binding protein homolog 5 (PfRH5) is the leading target for next-generation vaccines against the disease-causing blood-stage of malaria. However,little is known about how human antibodies confer functional immunity against this antigen. We isolated a panel of human monoclonal antibodies (mAbs) against PfRH5 from peripheral blood B cells from vaccinees in the first clinical trial of a PfRH5-based vaccine. We identified a subset of mAbs with neutralizing activity that bind to three distinct sites and another subset of mAbs that are non-functional,or even antagonistic to neutralizing antibodies. We also identify the epitope of a novel group of non-neutralizing antibodies that significantly reduce the speed of red blood cell invasion by the merozoite,thereby potentiating the effect of all neutralizing PfRH5 antibodies as well as synergizing with antibodies targeting other malaria invasion proteins. Our results provide a roadmap for structure-guided vaccine development to maximize antibody efficacy against blood-stage malaria. View Publication

Mycoplasma pneumoniae is a human respiratory tract pathogen causing acute and chronic airway disease states that can include long-term carriage and extrapulmonary spread. The mechanisms of persistence and migration beyond the conducting airways,however,remain poorly understood. We previously described an acute exposure model using normal human bronchial epithelium (NHBE) in air-liquid interface culture,showing that M. pneumoniae gliding motility is essential for initial colonisation and subsequent spread,including localisation to epithelial cell junctions. We extended those observations here,characterizing M. pneumoniae infection of NHBE for up to 4 weeks. Colonisation of the apical surface was followed by pericellular invasion of the basolateral compartment and migration across the underlying transwell membrane. Despite fluctuations in transepithelial electrical resistance and increased NHBE cell desquamation,barrier function remained largely intact. Desquamation was accompanied by epithelial remodelling that included cytoskeletal reorganisation and development of deep furrows in the epithelium. Finally,M. pneumoniae strains S1 and M129 differed with respect to invasion and histopathology,consistent with contrasting virulence in experimentally infected mice. In summary,this study reports pericellular invasion,NHBE cytoskeletal reorganisation,and tissue remodelling with persistent infection in a human airway epithelium model,providing clear insight into the likely route for extrapulmonary spread. View Publication

Abs have been shown to be protective in passive immunotherapy of tuberculous infection using mouse experimental models. In this study,we report on the properties of a novel human IgA1,constructed using a single-chain variable fragment clone (2E9),selected from an Ab phage library. The purified Ab monomer revealed high binding affinities for the mycobacterial ?-crystallin Ag and for the human Fc?RI (CD89) IgA receptor. Intranasal inoculations with 2E9IgA1 and recombinant mouse IFN-? significantly inhibited pulmonary H37Rv infection in mice transgenic for human CD89 but not in CD89-negative littermate controls,suggesting that binding to CD89 was necessary for the IgA-imparted passive protection. 2E9IgA1 added to human whole-blood or monocyte cultures inhibited luciferase-tagged H37Rv infection although not for all tested blood donors. Inhibition by 2E9IgA1 was synergistic with human rIFN-? in cultures of purified human monocytes but not in whole-blood cultures. The demonstration of the mandatory role of Fc?RI (CD89) for human IgA-mediated protection is important for understanding of the mechanisms involved and also for translation of this approach toward development of passive immunotherapy of tuberculosis. View Publication

Acute coronary syndromes (ACS) are precipitated by a rupture of the atherosclerotic plaque,often at the site of T cell and macrophage infiltration. Here,we show that plaque-infiltrating CD4 T cells effectively kill vascular smooth muscle cells (VSMC). VSMCs sensitive to T cell-mediated killing express the death receptor DR5 (TNF-related apoptosis-inducing ligand [TRAIL] receptor 2),and anti-TRAIL and anti-DR5 antibodies block T cell-mediated apoptosis. CD4 T cells that express TRAIL upon stimulation are expanded in patients with ACS and more effectively induce VSMC apoptosis. Adoptive transfer of plaque-derived CD4 T cells into immunodeficient mice that are engrafted with human atherosclerotic plaque results in apoptosis of VSMCs,which was prevented by coadministration of anti-TRAIL antibody. These data identify that the death pathway is triggered by TRAIL-producing CD4 T cells as a direct mechanism of VSMC apoptosis,a process which may lead to plaque destabilization. View Publication

BACKGROUND Cell fusion is a fast and highly efficient technique for cells to acquire new properties. The fusion of somatic cells with stem cells can reprogram somatic cells to a pluripotent state. Our research on the fusion of stem cells and cancer cells demonstrates that the fused cells can exhibit stemness and cancer cell-like characteristics. Thus,tumor-initiating cell-like cells are generated. METHODS We employed laser-induced single-cell fusion technique to fuse the hepatocellular carcinoma cells and human embryonic stem cells (hESC). Real-time RT-PCR,flow cytometry and in vivo tumorigenicity assay were adopted to identify the gene expression difference. RESULTS We successfully produced a fused cell line that coalesces the gene expression information of hepatocellular carcinoma cells and stem cells. Experimental results showed that the fused cells expressed cancer and stemness markers as well as exhibited increased resistance to drug treatment and enhanced tumorigenesis. CONCLUSIONS Fusion with stem cells transforms liver cancer cells into tumor initiating-like cells. Results indicate that fusion between cancer cell and stem cell may generate tumor initiating-like cells. View Publication

The type III family of IFNs displays immunomodulatory and antiviral activity. Each member (IFN-lambda1,-2,and -3) signals through the same heterodimeric receptor complex,which consists of the binding and signaling subunit (IL-28Ralpha) plus the IL-10Rbeta chain. Although the receptor has a wide tissue distribution,the direct effects of IFN-lambda on various immune cell subsets have not been fully characterized. We have identified high levels of IL-28Ralpha mRNA in pDC from peripheral blood and hypothesized that IFN-lambda plays an important role in pDC maturation and development. We show that stimulation of pDC with HSV or Imiquimod causes an increase in IL-28Ralpha mRNA. In these cells,IFN-lambda1 alters expression of the costimulatory molecules CD80 and ICOS-L and synergizes with IFN-alpha to up-regulate CD83. In addition,IFN-lambda1 has a variable effect on the homing molecule expression of pDC and mDC. IFN-lambda1-treated pDC display a marked difference in their ability to stimulate production of the signature cytokines IL-13,IFN-gamma,and IL-10 in a MLR. This work characterizes the variable effects of IFN-lambda on DC surface molecule expression and identifies a role in pDC activation and immunostimulatory potential. View Publication

Although distinct human induced pluripotent stem cell (hiPSC) lines can display considerable epigenetic variation,it has been unclear whether such variability impacts their utility for disease modeling. Here,we show that although low-passage female hiPSCs retain the inactive X chromosome of the somatic cell they are derived from,over time in culture they undergo an erosion" of X chromosome inactivation (XCI). This erosion of XCI is characterized by loss of XIST expression and foci of H3-K27-trimethylation� View Publication