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

We investigated roles for chemoattractants in dissemination of HIV-1 by examining the induction of T cell-active chemokines in HIV-1-infected human monocyte-derived macrophages and dendritic cells. Of the 12 chemokines analyzed,mRNAs for two,CXCL10 and CXCL11,ligands for the chemokine receptor CXCR3,were up-regulated in both cell types upon infection by HIV-1. Induction of these chemokine genes in infected cultures was dependent on both viral entry and reverse transcriptase activity,but not on the HIV-1 envelope glycoprotein. Conditioned medium from infected cells was chemotactic for freshly isolated human CD4+ T cells,and chemotaxis was abolished by pretreatment with an Ab against CXCR3. A lymph node from an HIV-1-infected individual expressed CXCL10 and CXCL11 mRNAs in the paracortex,including venules,as detected by in situ hybridization,whereas neither mRNA was detected after highly active antiretroviral therapy. Because CCR5 on CD4+ T cells is found predominantly on cells that also express CXCR3,these data implicate CXCL10 and CXCL11 in the recruitment of susceptible T cells to HIV-1-infected lymph nodes,macrophages,and dendritic cells. This recruitment might enhance the sequestration of T cells in infected lymphoid organs and the spread of infection between cells,contributing to the immunopathology of AIDS. View Publication

Several differentiation protocols have enabled the generation of intermediate mesoderm (IM)-derived cells from human pluripotent stem cells (hPSC). However,the substantial variability between existing protocols for generating IM cells compromises their efficiency,reproducibility,and overall success,potentially hindering the utility of urogenital system organoids. Here,we examined the role of high levels of Nodal signaling and BMP activity,as well as WNT signaling in the specification of IM cells derived from a UCSD167i-99-1 human induced pluripotent stem cells (hiPSC) line. We demonstrate that precise modulation of WNT and BMP signaling significantly enhances IM differentiation efficiency. Treatment of hPSC with 3 ?M CHIR99021 induced TBXT+/MIXL1+ mesoderm progenitor (MP) cells after 48 h of differentiation. Further treatment with a combination of 3 ?M CHIR99021 and 4 ng/mL BMP4 resulted in the generation of OSR1+/GATA3+/PAX2+ IM cells within a subsequent 48 h period. Molecular characterization of differentiated cells was confirmed through immunofluorescence staining and RT-qPCR. Hence,this study establishes a consistent and reproducible protocol for differentiating hiPSC into IM cells that faithfully recapitulates the molecular signatures of IM development. This protocol holds promise for improving the success of protocols designed to generate urogenital system organoids in vitro,with potential applications in regenerative medicine,drug discovery,and disease modeling. View Publication

Hepatocyte-like cells (HLCs) are derived from human pluripotent stem cells (hPSCs) in vitro,but differentiation protocols commonly give rise to a heterogeneous mixture of cells. This variability confounds the evaluation of in vitro functional assays performed using HLCs. Increased differentiation efficiency and more accurate approximation of the in vivo hepatocyte gene expression profile would improve the utility of hPSCs. Towards this goal,we demonstrate the purification of a subpopulation of functional HLCs using the hepatocyte surface marker asialoglycoprotein receptor 1 (ASGR1). We analyzed the expression profile of ASGR1-positive cells by microarray,and tested their ability to perform mature hepatocyte functions (albumin and urea secretion,cytochrome activity). By these measures,ASGR1-positive HLCs are enriched for the gene expression profile and functional characteristics of primary hepatocytes compared with unsorted HLCs. We have demonstrated that ASGR1-positive sorting isolates a functional subpopulation of HLCs from among the heterogeneous cellular population produced by directed differentiation. View Publication

Introduction Appropriate neural patterning of human induced pluripotent stem cells (hiPSCs) is critical to generate specific neural cells/tissues and even mini-brains that are physiologically relevant to model neurological diseases. However,the capacity of signaling factors that regulate 3-D neural tissue patterning in vitro and differential responses of the resulting neural populations to various biomolecules have not yet been fully understood. Methods By tuning neural patterning of hiPSCs with small molecules targeting sonic hedgehog (SHH) signaling,this study generated different 3-D neuronal cultures that were mainly comprised of either cortical glutamatergic neurons or motor neurons. Results Abundant glutamatergic neurons were observed following the treatment with an antagonist of SHH signaling,cyclopamine,while Islet-1 and HB9-expressing motor neurons were enriched by an SHH agonist,purmorphamine. In neurons derived with different neural patterning factors,whole-cell patch clamp recordings showed similar voltage-gated Na+/K+ currents,depolarization-evoked action potentials and spontaneous excitatory post-synaptic currents. Moreover,these different neuronal populations exhibited differential responses to three classes of biomolecules,including (1) matrix metalloproteinase inhibitors that affect extracellular matrix remodeling; (2) N-methyl-D-aspartate that induces general neurotoxicity; and (3) amyloid ?? (1???42) oligomers that cause neuronal subtype-specific neurotoxicity. Conclusions This study should advance our understanding of hiPSC self-organization and neural tissue development and provide a transformative approach to establish 3-D models for neurological disease modeling and drug discovery. Statement of Significance Appropriate neural patterning of human induced pluripotent stem cells (hiPSCs) is critical to generate specific neural cells,tissues and even mini-brains that are physiologically relevant to model neurological diseases. However,the capability of sonic hedgehog-related small molecules to tune different neuronal subtypes in 3-D differentiation from hiPSCs and the differential cellular responses of region-specific neuronal subtypes to various biomolecules have not been fully investigated. By tuning neural patterning of hiPSCs with small molecules targeting sonic hedgehog signaling,this study provides knowledge on the differential susceptibility of region-specific neuronal subtypes derived from hiPSCs to different biomolecules in extracellular matrix remodeling and neurotoxicity. The findings are significant for understanding 3-D neural patterning of hiPSCs for the applications in brain organoid formation,neurological disease modeling,and drug discovery. View Publication

Human induced pluripotent stem cells (hiPSCs) secrete essential autocrine factors that are removed along with toxic metabolites when the growth medium is exchanged daily. In this study,after determining the minimum inhibitory level of lactic acid for hiPSCs,a medium refining system was constructed by which toxic metabolites were removed from used culture medium and autocrine factors as well as other growth factors were recycled. Specifically,about 87 % of the basic fibroblast growth factor and 80 % of transforming growth factor beta 1 were retained in the refined medium after dialysis. The refined medium efficiently potentiated the proliferation of hiPS cells in adherent culture. When the refining system was used to refresh medium in suspension culture,a final cell density of (1.1 ± 0.1) × 10(6) cells mL(-1) was obtained,with 99.5 ± 0.2 % OCT 3/4 and 78.3 ± 1.1 % TRA-1-60 expression,on day 4 of culture. These levels of expression were similar to those observed in the conventional suspension culture. With this method,culture medium refinement by dialysis was established to remove toxic metabolites,recycle autocrine factors as well as other growth factors,and reduce the use of macromolecules for the expansion of hiPSCs in suspension culture. View Publication

A fast track Hot Start" process was implemented to launch the European Bank for Induced Pluripotent Stem Cells (EBiSC) to provide early release of a range of established control and disease linked human induced pluripotent stem cell (hiPSC) lines. Established practice amongst consortium members was surveyed to arrive at harmonised and publically accessible Standard Operations Procedures (SOPs) for tissue procurement View Publication

The past two decades have witnessed significant strides in leukemia therapies through approval of therapeutic inhibitors targeting oncogene-driving dysregulated tyrosine kinase activities and key epigenetic and apoptosis regulators. Although these drugs have brought about complete remission in the majority of patients,many patients face relapse or have refractory disease. The main factor contributing to relapse is the presence of a small subpopulation of dormant drug-resistant leukemia cells that possess stem cell features (termed as leukemia stem cells or LSCs). Thus,overcoming drug resistance and targeting LSCs remain major challenges for curative treatment of human leukemia. Chronic myeloid leukemia (CML) is a good example,with rare,propagating LSCs and drug-resistant cells that cannot be eradicated by BCR-ABL-directed tyrosine kinase inhibitor (TKI) monotherapy and that are responsible for disease relapse/progression. Therefore,it is imperative to identify key players in regulating BCR-ABL1-dependent and independent drug-resistance mechanisms,and their key pathways,so that CML LSCs can be selectively targeted or sensitized to TKIs. Here,we describe several easily adaptable gene knockdown approaches in CD34+ CML stem/progenitor cells that can be used to investigate the biological properties of LSCs and molecular effects of genes of interest (GOI),which can be further explored as therapeutic modalities against LSCs in the context of human leukemia. View Publication

Natural killer (NK) cells are characterized by their ability to mediate spontaneous cytotoxicity against susceptible tumor cells and infected cells. They differentiate from hematopoietic progenitor cells. Patients with X-linked severe combined immunodeficiency (SCID X1) carry mutations in the gamma c cytokine receptor gene that result in lack of both T and NK cells. To assess the role of interleukin-2 (IL-2),IL-7,and IL-15 cytokines,which share gamma c receptor subunit,in NK cell differentiation,we have studied NK cell differentiation from cord blood CD34 (+) cells in the presence of either stem cell factor (SCF),IL-2,and IL-7 or SCF and IL-15. The former cytokine combination efficiently induced CD34 (+) CD7 (+) cord blood cells to proliferate and mature into NK cells,while the latter was also able to induce NK cell differentiation from more immature CD34 (+) CD7 (-) cord blood cells. NK cells expressed CD56 and efficiently killed K562 target cells. These results show that IL-15 could play an important role in the maturation of NK cell from cord blood progenitors. Following retroviral-mediated gene transfer of gamma c into SCID X1 bone marrow progenitors,it was possible to reproduce a similar pattern of NK cell differentiation in two SCID-X1 patients with SCF + IL-2 + IL-7 and more efficiently in one of them with SCF + IL-15. These results strongly suggest that the gamma c chain transduces major signal(s) involved in NK cell differentiation from hematopoietic progenitor cells and that IL-15 interaction with gamma c is involved in this process at an earlier step than IL-2/IL-7 interactions of gamma c are. It also shows that gene transfer into hematopoietic progenitor cells could potentially restore NK cell differentiation in SCID X1 patients. View Publication

BACKGROUND AIMS microRNAs (miRNAs) are small non-coding RNAs that bind to 3'UTR regions of mRNAs to promote their degradation or block their translation. Mice with disruption of the trefoil factor 1 gene (Tff1) develop gastric neoplasms. We studied these mice to identify conserved miRNA networks involved in gastric carcinogenesis. METHODS We performed next-generation miRNA sequencing analysis of normal gastric tissues (based on histology) from subjects without evidence of gastric neoplasm from patients (n=64) and TFF1-knockout mice (n=22). We validated our findings using 270 normal gastric tissues (including 61 samples from patients without evidence of neoplastic lesions) and 234 gastric tumor tissues from 3 separate cohorts of patients and from mice. We performed molecular and functional assays using cell lines (MKN28,MKN45,STKM2,and AGS cells),gastric organoids,and mice with xenograft tumors. RESULTS We identified 117 miRNAs that were significantly deregulated in mouse and human gastric tumor tissues,compared with non-tumor tissues. We validated changes in levels of 6 miRNAs by quantitative real-time PCR analyses of neoplastic gastric tissues from mice (n=39) and 3 independent cohorts patients (332 patients total). We found levels of MIR135B-5p,MIR196B-5p,and MIR92A-5p to be increased in tumor tissues whereas levels of MIR143-3p,MIR204-5p,and MIR133-3p were decreased in tumor tissues. Levels of MIR143-3p were reduced not only in gastric cancer tissues,but also in normal tissues adjacent to tumors in humans and low-grade dysplasia in mice. Transgenic expression of MIR143-3p in gastric cancer cell lines reduced their proliferation and restored their sensitivity to cisplatin. AGS cells with stable transgenic expression of MIR143-3p grew more slowly as xenograft tumors in mice than control AGS cells; tumor growth from AGS cells that expressed MIR143-3p,but not control cells,was sensitive to cisplatin. We identified and validated bromodomain containing 2 (BRD2) as a direct target of MIR143-3p; increased levels of BRD2 in gastric tumors associated with shorter survival times of patients. CONCLUSIONS In an analysis of miRNA profiles of gastric tumors from mice and human patients,we identified a conserved signature associated with early stages of gastric tumorigenesis. Strategies to restore MIR143-3p or inhibit BRD2 might be developed for treatment of gastric cancer. View Publication

Understanding why some triple-negative breast cancer (TNBC) patients respond poorly to existing therapies while others respond well remains a challenge. This study aims to understand the potential underlying mechanisms distinguishing early-stage TNBC tumors that respond to clinical intervention from non-responders,as well as to identify clinically viable therapeutic strategies,specifically for TNBC patients who may not benefit from existing therapies. We conducted retrospective bioinformatics analysis of historical gene expression datasets to identify a group of genes whose expression levels in early-stage tumors predict poor clinical outcomes in TNBC. In vitro small-molecule screening,genetic manipulation,and drug treatment in syngeneic mouse models of TNBC were utilized to investigate potential therapeutic strategies and elucidate mechanisms of drug action. Our bioinformatics analysis reveals a robust association between increased expression of immunosuppressive cytokine S100A8/A9 in early-stage tumors and subsequent disease progression in TNBC. A targeted small-molecule screen identifies PIM kinase inhibitors as capable of decreasing S100A8/A9 expression in multiple cell types,including TNBC and immunosuppressive myeloid cells. Combining PIM inhibition and immune checkpoint blockade induces significant antitumor responses,especially in otherwise resistant S100A8/A9-high PD-1/PD-L1-positive tumors. Notably,serum S100A8/A9 levels mirror those of tumor S100A8/A9 in a syngeneic mouse model of TNBC. Our data propose S100A8/A9 as a potential predictive and pharmacodynamic biomarker in clinical trials evaluating combination therapy targeting PIM and immune checkpoints in TNBC. This work encourages the development of S100A8/A9-based liquid biopsy tests for treatment guidance. Subject terms: Breast cancer,Breast cancer,Prognostic markers View Publication

PURPOSE: Circulating cell-free DNA in the blood of cancer patients harbors tumor-specific aberrations. Here,we investigated whether this DNA might also reflect the presence of circulating tumor cells (CTC). EXPERIMENTAL DESIGN: To identify the source of cell-free DNA in blood,plasma derived from 81 patients with prostate cancer was examined for CTCs and cell-free DNA. An epithelial immunospot assay was applied for detection of CTCs,and a PCR-based fluorescence microsatellite analysis with a panel of 14 polymorphic markers was used for detection of allelic imbalances (AI). RESULTS: The plasma DNA levels significantly correlated with the diagnosis subgroups of localized (stage M0,n = 69) and metastasized prostate cancer (stage M1,n = 12; P = 0.03) and with the tumor stage of these patients (P textless 0.005). AI was found on cell-free DNA in plasma from 45.0% and 58.5% of M0 and M1 patients,respectively. Detection of CTCs showed that 71.0% or 92.0% of the M0 and M1 patients harbored 1 to 40 CTCs in their blood,respectively. The occurrence of CTCs correlated with tumor stage (P textless 0.03) and increasing Gleason scores (P = 0.04). Notably,significant associations of the number of CTCs with the AI frequencies at the markers D8S137 (P = 0.03),D9S171 (P = 0.04),and D17S855 (P = 0.02) encoding the cytoskeletal protein dematin,the inhibitor of the cyclin-dependent kinase CDKN2/p16 and BRCA1,respectively,were observed. CONCLUSIONS: These findings show,for the first time,a relationship between the occurrence of CTCs and circulating tumor-associated DNA in blood,which,therefore,might become a valuable new source for monitoring metastatic progression in cancer patients. View Publication