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

Regions of the normal arterial intima predisposed to atherosclerosis are sites of ongoing monocyte trafficking and also contain resident myeloid cells with features of dendritic cells. However,the pathophysiological roles of these cells are poorly understood. Here we found that intimal myeloid cells underwent reverse transendothelial migration (RTM) into the arterial circulation after systemic stimulation of pattern-recognition receptors (PRRs). This process was dependent on expression of the chemokine receptor CCR7 and its ligand CCL19 by intimal myeloid cells. In mice infected with the intracellular pathogen Chlamydia muridarum,blood monocytes disseminated infection to the intima. Subsequent CCL19-CCR7-dependent RTM was critical for the clearance of intimal C. muridarum. This process was inhibited by hypercholesterolemia. Thus,RTM protects the normal arterial intima,and compromised RTM during atherogenesis might contribute to the intracellular retention of pathogens in atherosclerotic lesions. View Publication

MicroRNAs (miRNA) are central regulators of diverse biological processes and are important in the regulation of stem cell self-renewal. One of the widely studied miRNA-protein regulators is the Lin28-Let-7 pair. In this study,we demonstrate that contrary to the well-established models of mouse ES cells (mESC) and transformed human cancer cells,the pluripotent state of human ES cells (hESC) involves expression of mature Let-7 family miRNAs with concurrent expression of all LIN28 proteins. We show that mature Let-7 miRNAs are regulated during hESC differentiation and have opposite expression profile with LIN28B. Moreover,mature Let-7 miRNAs fine tune the expression levels of LIN28B protein in pluripotent hESCs,whereas silencing of LIN28 proteins have no effect on mature Let-7 levels. These results bring novel information to the highly complex network of human pluripotency and suggest that maintenance of hESC pluripotency differs greatly from the mESCs in regard to LIN28-Let-7 regulation. View Publication

No treatments exist to effectively treat many retinal diseases. Retinal pigmented epithelium (RPE) and neural retina can be generated from human embryonic stem cells/induced pluripotent stem cells (hESCs/hiPSCs). The efficacy of current protocols is,however,limited. It was hypothesised that generation of laminated neural retina and/or RPE from hiPSCs/hESCs could be enhanced by three dimensional (3D) culture in hydrogels. hiPSC- and hESC-derived embryoid bodies (EBs) were encapsulated in 0.5% RGD-alginate; 1% RGD-alginate; hyaluronic acid (HA) or HA/gelatin hydrogels and maintained until day 45. Compared with controls (no gel),0.5% RGD-alginate increased: the percentage of EBs with pigmented RPE foci; the percentage EBs with optic vesicles (OVs) and pigmented RPE simultaneously; the area covered by RPE; frequency of RPE cells (CRALBP+); expression of RPE markers (TYR and RPE65) and the retinal ganglion cell marker,MATH5. Furthermore,0.5% RGD-alginate hydrogel encapsulation did not adversely affect the expression of other neural retina markers (PROX1,CRX,RCVRN,AP2α or VSX2) as determined by qRT-PCR,or the percentage of VSX2 positive cells as determined by flow cytometry. 1% RGD-alginate increased the percentage of EBs with OVs and/or RPE,but did not significantly influence any other measures of retinal differentiation. HA-based hydrogels had no significant effect on retinal tissue development. The results indicated that derivation of retinal tissue from hESCs/hiPSCs can be enhanced by culture in 0.5% RGD-alginate hydrogel. This RGD-alginate scaffold may be useful for derivation,transport and transplantation of neural retina and RPE,and may also enhance formation of other pigmented,neural or epithelial tissue. STATEMENT OF SIGNIFICANCE The burden of retinal disease is ever growing with the increasing age of the world-wide population. Transplantation of retinal tissue derived from human pluripotent stem cells (PSCs) is considered a promising treatment. However,derivation of retinal tissue from PSCs using defined media is a lengthy process and often variable between different cell lines. This study indicated that alginate hydrogels enhanced retinal tissue development from PSCs,whereas hyaluronic acid-based hydrogels did not. This is the first study to show that 3D culture with a biomaterial scaffold can improve retinal tissue derivation from PSCs. These findings indicate potential for the clinical application of alginate hydrogels for the derivation and subsequent transplantation retinal tissue. This work may also have implications for the derivation of other pigmented,neural or epithelial tissue. View Publication

We examined the signaling pathways and cell type-specific responses of IFN regulatory factor (IRF) 5,an immune-regulatory transcription factor. We show that the protein kinases IKK$\alpha$,IKK$\beta$,IKK$\epsilon$,and TANK-binding kinase 1 each confer IRF5 phosphorylation/dimerization,thus extending the family of IRF5 activator kinases. Among primary human immune cell subsets,we found that IRF5 is most abundant in plasmacytoid dendritic cells (pDCs). Flow cytometric cell imaging revealed that IRF5 is specifically activated by endosomal TLR signaling. Comparative analyses revealed that IRF3 is activated in pDCs uniquely through RIG-I-like receptor (RLR) signaling. Transcriptomic analyses of pDCs show that the partitioning of TLR7/IRF5 and RLR/IRF3 pathways confers differential gene expression and immune cytokine production in pDCs,linking IRF5 with immune regulatory and proinflammatory gene expression. Thus,TLR7/IRF5 and RLR-IRF3 partitioning serves to polarize pDC response outcome. Strategies to differentially engage IRF signaling pathways should be considered in the design of immunotherapeutic approaches to modulate or polarize the immune response for specific outcome. View Publication

In human glioblastomas (hGBMs),tumor-propagating cells with stem-like characteristics (TPCs) represent a key therapeutic target. We found that the EphA2 receptor tyrosine kinase is overexpressed in hGBM TPCs. Cytofluorimetric sorting into EphA2(High) and EphA2(Low) populations demonstrated that EphA2 expression correlates with the size and tumor-propagating ability of the TPC pool in hGBMs. Both ephrinA1-Fc,which caused EphA2 downregulation in TPCs,and siRNA-mediated knockdown of EPHA2 expression suppressed TPCs self-renewal ex vivo and intracranial tumorigenicity,pointing to EphA2 downregulation as a causal event in the loss of TPCs tumorigenicity. Infusion of ephrinA1-Fc into intracranial xenografts elicited strong tumor-suppressing effects,suggestive of therapeutic applications. View Publication

Vascular smooth muscle cells (SMCs) arise from diverse developmental origins. Regional distribution of vascular diseases may,in part,be attributed to this inherent heterogeneity in SMC lineage. Therefore,systems for generating human SMC subtypes of distinct embryonic origins would represent useful platforms for studying the influence of SMC lineage on the spatial specificity of vascular disease. Here we describe how human pluripotent stem cells can be differentiated into distinct populations of SMC subtypes under chemically defined conditions. The initial stage (days 0-5 or 0-7) begins with the induction of three intermediate lineages: neuroectoderm,lateral plate mesoderm and paraxial mesoderm. Subsequently,these precursor lineages are differentiated into contractile SMCs (days 5-19+). At key stages,the emergence of lineage-specific markers confirms recapitulation of embryonic developmental pathways and generation of functionally distinct SMC subtypes. The ability to derive an unlimited supply of human SMCs will accelerate applications in regenerative medicine and disease modeling. View Publication

Potential teratogenic effects of alcohol on fetal development have been documented. Especially studies have demonstrated deleterious effect of ethanol exposure on neuronal development in animal models and on the maintenance and differentiation of neuronal precursor cells derived from stem cells. To better understand the molecular effect of alcohol on the process of neural differentiation,we have performed gene expression microarray analysis on human embryonic stem cells being directed to neural rosettes and neural precursor cells in the presence of ethanol treatment. Here we provide detailed experimental methods,analysis and information associated with our data deposited into Gene Expression Omnibus (GEO) under GSE56906. Our data provide scientific insight on potential molecular effects of fetal alcohol exposure on neural differentiation of early embryo development. View Publication

Recent compelling evidence indicates that Th17 confer host immunity against a variety of microbes,including extracellular and intracellular pathogens. Therefore,understanding mechanisms for the induction and activation of Ag-specific Th17 is important for the rational design of vaccines against pathogens. To study this,we employed an in vitro system in which influenza hemagglutinin (HA) 1 was delivered to dendritic cells (DCs) via Dectin-1 using anti-human Dectin-1 (hDectin-1)-HA1 recombinant fusion proteins. We found that healthy individuals maintained broad ranges of HA1-specific memory Th17 that were efficiently activated by DCs targeted with anti-hDectin-1-HA1. Nonetheless,these DCs were not able to induce a significant level of HA1-specific Th17 responses even in the presence of the Th17-promoting cytokines IL-1? and IL-6. We further found that the induction of surface IL-1R1 expression by signals via TCRs and common ?-chain receptors was essential for naive CD4(+) T cell differentiation into HA1-specific Th17. This process was dependent on MyD88,but not IL-1R-associated kinase 1/4. Thus,interruptions in STAT3 or MyD88 signaling led to substantially diminished HA1-specific Th17 induction. Taken together,the de novo generation of pathogen-specific human Th17 requires complex,but complementary,actions of multiple signals. Data from this study will help us design a new and effective vaccine strategy that can promote Th17-mediated immunity against microbial pathogens. View Publication

Due to viral envelope glycoprotein D binding to cellular membrane HVEM receptor,HSV-1 can infect certain dendritic cells,which becomes an event in the viral strategy to interfere with the host's immune system. We previously generated the HSV-1 mutant strain M6,which produced an attenuated phenotype in mice and rhesus monkeys. The attenuated M6 strain was used to investigate how HSV-1 infection of dendritic cells interferes with both innate and adaptive immunity. Our study showed that dendritic cells membrane HVEM receptors could mediate infection of the wild-type strain and attenuated M6 strain and that dendritic cells infected by both viruses in local tissues of animals exhibited changes in transcriptional profiles associated with innate immune and inflammatory responses. The infection of pDCs and cDCs by the two strains promoted cell differentiation to the CD103+ phenotype,but varied transcriptional profiles were observed,implying a strategy that the HSV-1 wild-type strain interferes with antiviral immunity,probably due to viral modification of the immunological phenotype of dendritic cells during processing and presentation of antigen to T cells,leading to a series of deviations in immune responses,ultimately generating the deficient immune phenotype observed in infected individuals in the clinical. View Publication

BACKGROUND Two opposing B cell subsets have been defined based on their cytokine profile: IL-6 producing effector B cells (B-effs) versus IL-10 producing regulatory B cells (B-regs) that respectively positively or negatively regulate immune responses. B-regs are decreased and/or impaired in many autoimmune diseases and inflammatory conditions. Since there is increasing evidence that links B cells and B cell-rich lymphoid follicles to the pathogenesis of COPD,the aim of this study was to investigate the presence and function of B-regs in COPD. METHODS First,presence of IL-10 producing regulatory B cells in human lung tissue was determined by immunohistochemistry. Secondly,quantification of IL-10??+??B-regs and IL-6??+??B-effs in peripheral blood mononuclear cells (PBMCs) from healthy controls,smokers without airflow limitation,and COPD patients (GOLD stage I-IV) was performed by flow cytometry. Thirdly,we exposed blood-derived B cells from COPD patients in vitro to cigarette smoke extract (CSE) and quantified IL-10??+??B-regs and IL-6??+??B-effs. Furthermore,we aimed at restoring the perturbed IL10 production by blocking BAFF. Fourthly,we determined mRNA expression of transcription factors involved in IL-10 production in FACS sorted memory- and naive B cells upon exposure to medium or CSE. RESULTS The presence of IL-10 producing regulatory B cells in parenchyma and lymphoid follicles in lungs was confirmed by immunohistochemistry. The percentage of IL-10??+??B-regs was significantly decreased in blood-derived memory B cell subsets from smokers without airflow limitation and patients with COPD,compared to never smokers. Furthermore,the capacity of B cells to produce IL-10 was reduced upon in vitro exposure to CSE and this could not be restored by BAFF-blockade. Finally,upon CSE exposure,mRNA levels of the transcription factors IRF4 and HIF-1$\alpha$,were decreased in memory B cells. CONCLUSION Decreased numbers and impaired function of B-regs in smokers and patients with COPD might contribute to the initiation and progression of the disease. View Publication

BACKGROUND Human pancreata contain many types of cells,such as endocrine islets,acinar,ductal,fat,and mesenchymal stromal cells (MSCs). MSCs are important and shown to have a promising therapeutic potential to treat various disease conditions. METHODS We investigated intra-pancreatic tissue-derived (IPTD) MSCs isolated from tissue fractions that are routinely discarded during pancreatic islet isolation of human cadaveric donors. Furthermore,whether pro-angiogenic and anti-inflammatory properties of these cells could be enhanced was investigated. RESULTS IPTD-MSCs were expanded in GMP-compatible CMRL-1066 medium supplemented with 5{\%} human platelet lysate (hPL). IPTD-MSCs were found to be highly pure,with {\textgreater} 95{\%} positive for CD90,CD105,and CD73,and negative for CD45,CD34,CD14,and HLA-DR. Immunofluorescence staining of pancreas tissue demonstrated the presence of CD105+ cells in the vicinity of islets. IPTD-MSCs were capable of differentiation into adipocytes,chondrocytes,and osteoblasts in vitro,underscoring their multipotent features. When these cells were cultured in the presence of a low dose of TNF-$\alpha$,gene expression of tumor necrosis factor alpha-stimulated gene-6 (TSG-6) was significantly increased,compared to control. In contrast,treating cells with dimethyloxallyl glycine (DMOG) (a prolyl 4-hydroxylase inhibitor) enhanced mRNA levels of nuclear factor erythroid 2-related factor 2 (NRF2) and vascular endothelial growth factor (VEGF). Interestingly,a combination of TNF-$\alpha$ and DMOG stimulated the optimal expression of all three genes in IPTD-MSCs. Conditioned medium of IPTD-MSCs treated with a combination of DMOG and TNF-$\alpha$ contained higher levels of pro-angiogenic (VEGF,IL-6,and IL-8) compared to controls,promoting angiogenesis of human endothelial cells in vitro. In contrast,levels of MCP-1,a pro-inflammatory cytokine,were reduced in the conditioned medium of IPTD-MSCs treated with a combination of DMOG and TNF-$\alpha$. CONCLUSIONS The results demonstrate that IPTD-MSCs reside within the pancreas and can be separated as part of a standard islet-isolation protocol. These IPTD-MSCs can be expanded and potentiated ex vivo to enhance their anti-inflammatory and pro-angiogenic profiles. The fact that IPTD-MSCs are generated in a GMP-compatible procedure implicates a direct clinical application. View Publication

Cancer stem cells (CSCs) residing in colorectal cancer tissues have tumorigenic capacity and contribute to chemotherapeutic resistance and disease relapse. It is well known that the survival of colorectal CSCs after 5-fluorouracil (5-FU)-based therapy leads to cancer recurrence. Thus CSCs represent a promising drug target. Here,we designed and synthesized novel hybrid molecules linking 5-FU with the plant-derived compound thymoquinone (TQ) and tested the potential of individual compounds and their combination to eliminate colorectal CSCs. Both,Combi and SARB hybrid showed augmented cytotoxicity against colorectal cancer cells,but were non-toxic to organoids prepared from healthy murine small intestine. NanoString analysis revealed a unique signature of deregulated gene expression in response to the combination of TQ and 5-FU (Combi) and SARB treatment. Importantly,two principle stem cell regulatory pathways WNT/{\ss}-Catenin and PI3K/AKT were found to be downregulated after Combi and hybrid treatment. Furthermore,both treatments strikingly eliminated CD133+ CSC population,accompanying the depleted self-renewal capacity by eradicating long-term propagated 3D tumor cell spheres at sub-toxic doses. In vivo xenografts on chicken eggs of SARB-treated HCT116 cells showed a prominent nuclear {\ss}-Catenin and E-cadherin staining. This was in line with the reduced transcriptional activity of {\ss}-Catenin and diminished cell adhesion under SARB exposure. In contrast to 5-FU,both,Combi and SARB treatment effectively reduced the angiogenic capacity of the remaining resistant tumor cells. Taken together,combination or hybridization of single compounds target simultaneously a broader spectrum of oncogenic pathways leading to an effective eradication of colorectal cancer cells. View Publication