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

A large number of EBV immortalized LCLs have been generated and maintained in genetic/epidemiological studies as a perpetual source of DNA and as a surrogate in vitro cell model. Recent successes in reprograming LCLs into iPSCs have paved the way for generating more relevant in vitro disease models using this existing bioresource. However,the overall reprogramming efficiency and success rate remain poor and very little is known about the mechanistic changes that take place at the transcriptome and cellular functional level during LCL-to-iPSC reprogramming. Here,we report a new optimized LCL-to-iPSC reprogramming protocol using episomal plasmids encoding pluripotency transcription factors and mouse p53DD (p53 carboxy-terminal dominant-negative fragment) and commercially available reprogramming media. We achieved a consistently high reprogramming efficiency and 100% success rate using this optimized protocol. Further,we investigated the transcriptional changes in mRNA and miRNA levels,using FC-abs ≥ 2.0 and FDR ≤ 0.05 cutoffs; 5,228 mRNAs and 77 miRNAs were differentially expressed during LCL-to-iPSC reprogramming. The functional enrichment analysis of the upregulated genes and activation of human pluripotency pathways in the reprogrammed iPSCs showed that the generated iPSCs possess transcriptional and functional profiles very similar to those of human ESCs. View Publication

The vacuolar H+ ATPase (V-ATPase) is a proton pump responsible for acidification of cellular microenvironments,an activity exploited by tumors to survive,proliferate and resist to therapy. Despite few observations,the role of V-ATPase in human tumorigenesis remains unclear.We investigated the expression of ATP6V0C,ATP6V0A2,encoding two subunits belonging to the V-ATPase V0 sector and ATP6V1C,ATP6V1G1,ATPT6V1G2,ATP6V1G3,which are part of the V1 sector,in series of adult gliomas and in cancer stem cell-enriched neurospheres isolated from glioblastoma (GBM) patients. ATP6V1G1 expression resulted significantly upregulated in tissues of patients with GBM and correlated with shorter patients' overall survival independent of clinical variables.ATP6V1G1 knockdown in GBM neurospheres hampered sphere-forming ability,induced cell death,and decreased matrix invasion,a phenotype not observed in GBM monolayer cultures. Treating GBM organotypic cultures or neurospheres with the selective V-ATPase inhibitor bafilomycin A1 reproduced the effects of ATP6V1G1 siRNA and strongly suppressed expression of the stem cell markers Nestin,CD133 and transcription factors SALL2 and POU3F2 in neurospheres.These data point to ATP6V1G1 as a novel marker of poor prognosis in GBM patients and identify V-ATPase inhibition as an innovative therapeutic strategy for GBM. View Publication

The ability to analyze protein function in a native context is central to understanding cellular physiology. This study explores whether tagging endogenous proteins with a reporter is a scalable strategy for generating cell models that accurately quantitate protein dynamics. Specifically,it investigates whether CRISPR-mediated integration of the HiBiT luminescent peptide tag can easily be accomplished on a large-scale and whether integrated reporter faithfully represents target biology. For this purpose,a large set of proteins representing diverse structures and functions,some of which are known or potential drug targets,were targeted for tagging with HiBiT in multiple cell lines. Successful insertion was detected for 86{\%} of the targets,as determined by luminescence-based plate assays,blotting,and imaging. In order to determine whether endogenously tagged proteins yield more representative models,cells expressing HiBiT protein fusions either from endogenous loci or plasmids were directly compared in functional assays. In the tested cases,only the edited lines were capable of accurately reproducing the anticipated biology. This study provides evidence that cell lines expressing HiBiT fusions from endogenous loci can be rapidly generated for many different proteins and that these cellular models provide insight into protein function that may be unobtainable using overexpression-based approaches. View Publication

The protease responsible for the cleavage of poly(ADP-ribose) polymerase and necessary for apoptosis has been purified and characterized. This enzyme,named apopain,is composed of two subunits of relative molecular mass (M(r)) 17K and 12K that are derived from a common proenzyme identified as CPP32. This proenzyme is related to interleukin-1 beta-converting enzyme (ICE) and CED-3,the product of a gene required for programmed cell death in Caenorhabditis elegans. A potent peptide aldehyde inhibitor has been developed and shown to prevent apoptotic events in vitro,suggesting that apopain/CPP32 is important for the initiation of apoptotic cell death. View Publication

The Smoothened receptor (Smo) mediates hedgehog (Hh) signaling critical for development,cell growth,and migration,as well as stem cell maintenance. Aberrant Hh signaling pathway activation has been implicated in a variety of cancers,and small-molecule antagonists of Smo have entered human clinical trials for the treatment of cancer. Here,we report the biochemical characterization of allosteric interactions of agonists and antagonists for Smo. Binding of two radioligands,[(3)H]3-chloro-N-[trans-4-(methylamino)cyclohexyl]-N-{\{}[3-(4-pyridinyl)-phenyl]methyl{\}}-1-benzothiophene-2-carboxamide (SAG-1.3) (agonist) and [(3)H]cyclopamine (antagonist),was characterized using human Smo expressed in human embryonic kidney 293F membranes. We observed full displacement of [(3)H]cyclopamine by all Smo agonist and antagonist ligands examined. N-[(1E)-(3,5-Dimethyl-1-phenyl-1H-pyrazol-4-yl)methylidene]-4-(phenylmethyl)-1-piperazinamine (SANT-1),an antagonist,did not fully inhibit the binding of [(3)H]SAG-1.3. In a functional cell-based beta-lactamase reporter gene assay,SANT-1 and N-[3-(1H-benzimidazol-2-yl)-4-chlorophenyl]-3,4,5-tris(ethyloxy)-benzamide (SANT-2) fully inhibited 3-chloro-4,7-difluoro-N-[trans-4-(methylamino)cyclohexyl]-N-{\{}[3-(4-pyridinyl)phenyl]methyl{\}}-1-benzothiophene-2-carboxamide (SAG-1.5)-induced Hh pathway activation. Detailed Schild-type" radioligand binding analysis with [(3)H]SAG-1.3 revealed that two structurally distinct Smoothened receptor antagonists SANT-1 and SANT-2 bound in a manner consistent with that of allosteric modulation. Our mechanism of action characterization of radioligand binding to Smo combined with functional data provides a better understanding of small-molecule interactions with Smo and their influence on the Hh pathway." View Publication

Alternative splicing is a major contributor of transcriptomic complexity,but the extent to which transcript isoforms are translated into stable,functional protein isoforms is unclear. Furthermore,detection of relatively scarce isoform-specific peptides is challenging,with many protein isoforms remaining uncharted due to technical limitations. Recently,a family of advanced targeted MS strategies,termed internal standard parallel reaction monitoring (IS-PRM),have demonstrated multiplexed,sensitive detection of pre-defined peptides of interest. Such approaches have not yet been used to confirm existence of novel peptides. Here,we present a targeted proteogenomic approach that leverages sample-matched long-read RNA sequencing (LR RNAseq) data to predict potential protein isoforms with prior transcript evidence. Predicted tryptic isoform-specific peptides,which are specific to individual gene product isoforms,serve as “triggers” and “targets” in the IS-PRM method,Tomahto. Using the model human stem cell line WTC11,LR RNAseq data were generated and used to inform the generation of synthetic standards for 192 isoform-specific peptides (114 isoforms from 55 genes). These synthetic “trigger” peptides were labeled with super heavy tandem mass tags (TMT) and spiked into TMT-labeled WTC11 tryptic digest,predicted to contain corresponding endogenous “target” peptides. Compared to DDA mode,Tomahto increased detectability of isoforms by 3.6-fold,resulting in the identification of five previously unannotated isoforms. Our method detected protein isoform expression for 43 out of 55 genes corresponding to 54 resolved isoforms. This LR RNA seq-informed Tomahto targeted approach,called LRP-IS-PRM,is a new modality for generating protein-level evidence of alternative isoforms – a critical first step in designing functional studies and eventually clinical assays. View Publication

The therapeutic monoclonal antibody (mAb) TGN1412 (anti-CD28 superagonist) caused near-fatal cytokine release syndrome (CRS) in all six volunteers during a phase-I clinical trial. Several cytokine release assays (CRAs) with reported predictivity for TGN1412-induced CRS have since been developed for the preclinical safety testing of new therapeutic mAbs. The whole blood (WB) CRA is the most widely used,but its sensitivity for TGN1412-like cytokine release was recently criticized. In a comparative study,using group size required for 90% power with 5% significance as a measure of sensitivity,we found that WB and 10% (v/v) WB CRAs were the least sensitive for TGN1412 as these required the largest group sizes (n = 52 and 79,respectively). In contrast,the peripheral blood mononuclear cell (PBMC) solid phase (SP) CRA was the most sensitive for TGN1412 as it required the smallest group size (n = 4). Similarly,the PBMC SP CRA was more sensitive than the WB CRA for muromonab-CD3 (anti-CD3) which stimulates TGN1412-like cytokine release (n = 4 and 4519,respectively). Conversely,the WB CRA was far more sensitive than the PBMC SP CRA for alemtuzumab (anti-CD52) which stimulates FcγRI-mediated cytokine release (n = 8 and 180,respectively). Investigation of potential factors contributing to the different sensitivities revealed that removal of red blood cells (RBCs) from WB permitted PBMC-like TGN1412 responses in a SP CRA,which in turn could be inhibited by the addition of the RBC membrane protein glycophorin A (GYPA); this observation likely underlies,at least in part,the poor sensitivity of WB CRA for TGN1412. The use of PBMC SP CRA for the detection of TGN1412-like cytokine release is recommended in conjunction with adequately powered group sizes for dependable preclinical safety testing of new therapeutic mAbs. View Publication

Genetically modified T lymphocytes expressing chimeric antigen receptors (CARs) are becoming increasingly important in the treatment of hematologic malignancies and are also intensively being investigated for other diseases such as autoimmune disorders and HIV. Current CAR T cell therapies predominantly use viral transduction methods which,despite their efficacy,raise safety concerns related to genomic integration and potentially associated malignancies as well as labor- and cost-intensive manufacturing. Therefore,non-viral gene transfer methods,especially mRNA-based approaches,have attracted research interest due to their transient modification and enhanced safety profile. In this study,the optimization of CAR-mRNA for T cell applications is investigated,focusing on the impact of mRNA modifications,in vitro transcription protocols,and purification techniques on the translation efficiency and immunogenicity of mRNA. Furthermore,the refined CAR-mRNA was used to generate transient CAR T cells from acute myeloid leukemia patient samples,demonstrating efficacy in vitro and proof-of-concept for clinically relevant settings. These results highlight the potential of optimized mRNA to produce transient and safe CAR T cells. View Publication