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

BACKGROUND: We previously identified a novel serine protease inhibitor (serpin),megsin,which is predominantly expressed in the kidney. Megsin expression is up-regulated in human and experimental renal diseases associated with mesangial proliferation and expansion,suggesting that urinary megsin may be a novel diagnostic marker for some renal diseases. METHODS: We established a specific and sensitive sandwich enzyme-linked immunosorbent assay (ELISA) for megsin and measured urinary megsin of patients with various renal diseases. RESULTS: Megsin ELISA specifically detected megsin but not other serpins. The detection limit was 0.04 ng/ml,which allowed detection of urinary megsin in 3.6% of healthy individuals. The antigenic epitope in the urine detected by the ELISA was confirmed as megsin protein by time-of-flight mass spectrometry. Among patients with rapidly progressive glomerulonephritis (n = 18),55.6% were urinary megsin-positive,while 24.1% in IgA nephropathy (n = 112) and 15.1% in chronic non-IgA glomerulonephritis (n = 245) were urinary megsin-positive,respectively. Among patients with chronic renal failure due to unknown causes (n = 74),18.9% were positive for urinary megsin. In diabetic patients with or without nephropathy (n = 1073),12.3% were urinary megsin-positive,while positivity of urinary megsin in patients with non-renal diseases (n = 768) was equivalent (3.3%) to that of healthy individuals. Of note,when urinary megsin-positive patients with diabetic nephropathy (n = 71) were classified into four stages by their proteinuria and estimated glomerular filtration rate,urinary megsin excretion increased as the stage progressed up to stage 3A,suggesting correlation of that with mesangial expansion level. Urinary megsin decreased in the advanced stage,probably reflecting development of glomerulosclerosis. CONCLUSION: We established a high-sensitive megsin ELISA,which detects urinary megsin in some patients with renal diseases and in only a few healthy subjects. Megsin ELISA may be a novel diagnostic tool for renal diseases. View Publication

Neural tissue formation is induced by growth factors that activate networks of signal transduction cascades that ultimately lead to the expression of early neural genes,including transcription factors of the SoxB family. Here,we report that fibroblast growth factor (FGF)-induced Erk1/2 (Mapk3 and Mapk1,respectively) mitogen-activated protein kinase (MAPK),but not phosphatidylinositol 3'-OH kinase (PI3K,Pik3r1),signalling is required for neural specification in mouse embryonic stem (ES) cells and in the chick embryo. Further,blocking Erk1/2 inhibits the onset of key SoxB genes in both mouse ES cells (Sox1) and chick embryos (Sox2 and Sox3) and,in both contexts,Erk1/2 signalling is required during only a narrow time window,as neural specification takes place. In the absence of Erk1/2 signalling,differentiation of ES cells stalls following Fgf5 upregulation. Using differentiating ES cells as a model for neural specification,we demonstrate that sustained Erk1/2 activation controls the transition from an Fgf5-positive,primitive ectoderm-like cell state to a neural progenitor cell state without attenuating bone morphogenetic protein (BMP) signalling and we also define the minimum period of Erk1/2 activity required to mediate this key developmental step. Together,these findings identify a conserved,specific and stage-dependent requirement for Erk1/2 signalling downstream of FGF-induced neural specification in higher vertebrates and provide insight into the signalling dynamics governing this process. View Publication

Chimeric oncoproteins resulting from fusion of MLL to a wide variety of partnering proteins cause biologically distinctive and clinically aggressive acute leukemias. However,the mechanism of MLL-mediated leukemic transformation is not fully understood. Dot1,the only known histone H3 lysine 79 (H3K79) methyltransferase,has been shown to interact with multiple MLL fusion partners including AF9,ENL,AF10,and AF17. In this study,we utilize a conditional Dot1l deletion model to investigate the role of Dot1 in hematopoietic progenitor cell immortalization by MLL fusion proteins. Western blot and mass spectrometry show that Dot1-deficient cells are depleted of the global H3K79 methylation mark. We find that loss of Dot1 activity attenuates cell viability and colony formation potential of cells immortalized by MLL oncoproteins but not by the leukemic oncoprotein E2a-Pbx1. Although this effect is most pronounced for MLL-AF9,we find that Dot1 contributes to the viability of cells immortalized by other MLL oncoproteins that are not known to directly recruit Dot1. Cells immortalized by MLL fusions also show increased apoptosis,suggesting the involvement of Dot1 in survival pathways. In summary,our data point to a pivotal requirement for Dot1 in MLL fusion protein-mediated leukemogenesis and implicate Dot1 as a potential therapeutic target. View Publication

Advancements in human-engineered heart tissue have enhanced the understanding of cardiac cellular alteration. Nevertheless,a human model simulating pathological remodeling following myocardial infarction for therapeutic development remains essential. Here we develop an engineered model of myocardial repair that replicates the phased remodeling process,including hypoxic stress,fibrosis,and electrophysiological dysfunction. Transcriptomic analysis identifies nine critical signaling pathways related to cellular fate transitions,leading to the evaluation of seventeen modulators for their therapeutic potential in a mini-repair model. A scoring system quantitatively evaluates the restoration of abnormal electrophysiology,demonstrating that the phased combination of TGF? inhibitor SB431542,Rho kinase inhibitor Y27632,and WNT activator CHIR99021 yields enhanced functional restoration compared to single factor treatments in both engineered and mouse myocardial infarction model. This engineered heart tissue repair model effectively captures the phased remodeling following myocardial infarction,providing a crucial platform for discovering therapeutic targets for ischemic heart disease. Engineered human models of hearts are needed to study pathology and repair. Here,the authors develop a model which replicates the phased remodelling process. The model is then used to study signalling pathway modulators for their therapeutic potential in a mini-repair model. View Publication

SummaryThe BAF chromatin remodeler regulates lineage commitment including cranial neural crest cell (CNCC) specification. Variants in BAF subunits cause Coffin-Siris syndrome (CSS),a congenital disorder characterized by coarse craniofacial features and intellectual disability. Approximately 50% of individuals with CSS harbor variants in one of the mutually exclusive BAF subunits,ARID1A/ARID1B. While Arid1a deletion in mouse neural crest causes severe craniofacial phenotypes,little is known about the role of ARID1A in CNCC specification. Using CSS-patient-derived ARID1A+/? induced pluripotent stem cells to model CNCC specification,we discovered that ARID1A-haploinsufficiency impairs epithelial-to-mesenchymal transition (EMT),a process necessary for CNCC delamination and migration from the neural tube. Furthermore,wild-type ARID1A-BAF regulates enhancers associated with EMT genes. ARID1A-BAF binding at these enhancers is impaired in heterozygotes while binding at promoters is unaffected. At the sequence level,these EMT enhancers contain binding motifs for ZIC2,and ZIC2 binding at these sites is ARID1A-dependent. When excluded from EMT enhancers,ZIC2 relocates to neuronal enhancers,triggering aberrant neuronal gene activation. In mice,deletion of Zic2 impairs NCC delamination,while ZIC2 overexpression in chick embryos at post-migratory neural crest stages elicits ectopic delamination from the neural tube. These findings reveal an essential ARID1A-ZIC2 axis essential for EMT and CNCC delamination. Graphical abstract ARID1A modulates chromatin accessibility at enhancers of genes required for epithelial-to-mesenchymal transition,a process essential for cranial neural crest cell (CNCC) specification. Haploinsufficiency of ARID1A attenuates ZIC2 binding at these enhancers,resulting in impaired CNCC formation with an aberrant neuronal trajectory. This study reveals an ARID1A-ZIC2 axis essential for CNCC specification. View Publication

Chagas disease,caused by the parasite Trypanosoma cruzi,affects millions of people globally. Unfortunately,the available treatment options,especially for the chronic stage of the disease,are suboptimal. Given the chronic nature of the disease and the elusive nature of the parasite,there is a high need for new and safer drugs that deliver sterile cure. Posaconazole was a promising lead in the drug discovery pipeline but ultimately failed in clinical trials due to patient relapses. This failure illustrates the need for a drug screening assay that can predict sterile cure by assessing recrudescence after treatment. Here,we used human induced pluripotent stem cell (iPSC)-derived macrophages (iMACs) as host cells for T. cruzi. The iMACs were highly susceptible to infection by the parasites. By combining red fluorescent protein (RFP)-expressing iMACs with mNeonGreen-expressing T. cruzi,we were able to monitor the dynamics of the infection through live cell imaging. The activity of the compounds benznidazole and posaconazole was consistent with the results of an established infection system using mouse primary macrophages. The post-mitotic nature of iMACs makes them suitable host cells for long-term assays needed to assess recrudescence of parasites. Moreover,their human origin,stable genetic background,and capacity for genetic modification make the iMACs excellent host cells for studying host-pathogen interaction. Author summaryThe parasite Trypanosoma cruzi,the causative agent of Chagas disease,is a global health concern affecting millions each year. Infection with T. cruzi can cause chronic disease,often remaining asymptomatic for decades before resulting in severe cardiac or gastro-intestinal pathologies. To date,only benznidazole and nifurtimox are used for treatment of the infection,but both drugs are suboptimal for curing the chronic stage. Posaconazole showed great promise in preclinical studies but failed to achieve sterile cure in clinical trials,causing patient relapses. These disappointing results underline the need for drug screening assays able to predict sterile cure by evaluating recrudescence post-treatment. We used human induced pluripotent stem cell derived macrophages as host cells for T. cruzi and testing of trypanocidal compounds. This model can be used for long-term in vitro screening assays to find new drug candidates against Chagas disease. The human origin of these cells combined with the possibility of upscaling their production make them great host cells for drug screening campaigns. View Publication

Cellular plasticity contributes to the regenerative capacity of plants,invertebrates,teleost fishes and amphibians. In vertebrates,differentiated cells are known to revert into replicating progenitors,but these cells do not persist as stable stem cells. Here we present evidence that differentiated airway epithelial cells can revert into stable and functional stem cells in vivo. After the ablation of airway stem cells,we observed a surprising increase in the proliferation of committed secretory cells. Subsequent lineage tracing demonstrated that the luminal secretory cells had dedifferentiated into basal stem cells. Dedifferentiated cells were morphologically indistinguishable from stem cells and they functioned as well as their endogenous counterparts in repairing epithelial injury. Single secretory cells clonally dedifferentiated into multipotent stem cells when they were cultured ex vivo without basal stem cells. By contrast,direct contact with a single basal stem cell was sufficient to prevent secretory cell dedifferentiation. In analogy to classical descriptions of amphibian nuclear reprogramming,the propensity of committed cells to dedifferentiate is inversely correlated to their state of maturity. This capacity of committed cells to dedifferentiate into stem cells may have a more general role in the regeneration of many tissues and in multiple disease states,notably cancer. View Publication

Despite significant advances in commercially available media and kits and the differentiation approaches for human neural stem cell (NSC) generation,NSC production from the differentiation of human pluripotent stem cell (hPSC) is complicated by its time-consuming procedure,complex medium composition,and purification step. In this study,we developed a convenient and simplified NSC production protocol to meet the demand of NSC production. We demonstrated that NSCs can be generated efficiently without requirement of specific small molecules or embryoid body formation stage. Our experimental results suggest that a short suspension culture period may facilitate ectoderm lineage specification rather than endoderm or mesoderm lineage specification from hPSCs. The method developed in this study shortens the turnaround time of NSC production from both human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) differentiation. It provides a straightforward and useful strategy for generating NSCs that can benefit a wide range of research applications for human brain research. View Publication

Chronic myelomonocytic leukemia (CMML) is a clinically heterogeneous neoplasm in which JAK2 inhibition has demonstrated reductions in inflammatory cytokines and promising clinical activity. We hypothesize that annotation of inflammatory cytokines may uncover mutation-independent cytokine subsets associated with novel CMML prognostic features. A Luminex cytokine profiling assay was utilized to profile cryopreserved peripheral blood plasma from 215 CMML cases from three academic centers,along with center-specific,age-matched plasma controls. Significant differences were observed between CMML patients and healthy controls in 23 out of 45 cytokines including increased cytokine levels in IL-8,IP-10,IL-1RA,TNF-alpha$,IL-6,MCP-1/CCL2,hepatocyte growth factor (HGF),M-CSF,VEGF,IL-4,and IL-2RA. Cytokine associations were identified with clinical and genetic features,and Euclidian cluster analysis identified three distinct cluster groups associated with important clinical and genetic features in CMML. CMML patients with decreased IL-10 expression had a poor overall survival when compared to CMML patients with elevated expression of IL-10 (P = 0.017),even when adjusted for ASXL1 mutation and other prognostic features. Incorporating IL-10 with the Mayo Molecular Model statistically improved the prognostic ability of the model. These established cytokines,such as IL-10,as prognostically relevant and represent the first comprehensive study exploring the clinical implications of the CMML inflammatory state. View Publication

Enumeration of human embryonic stem cell (hESC) numbers through single cell digestion can be time consuming especially in high-throughput or multi-factorial analysis containing 50+ samples. We have developed a reproducible,cost-effective method of counting hESCs in clumps circumventing the need to manually dissociate each sample to single cells. The method is based on the DNA binding capacity of propidium iodide (PI) and subsequent fluorescent signal detection. Standard curves generated for cell numbers versus PI fluorescence as single cells or clumps showed an almost identical relationship in the lines of best fit. The reproducibility of the assay was first demonstrated by seeding hESC clumps at specific cell densities ranging 0.05[x02013]2x105 cells/well and then secondly by using the assay to count cell numbers after different growth conditions. Validation tests showed that consistent seeding densities are important in maintaining undifferentiated hESC culture and that the assay can be used to estimate relative cell numbers and growth curves with high accuracy. View Publication

Deregulation of the phosphoinositide-3-OH kinase (PI(3)K) pathway has been implicated in numerous pathologies including cancer,diabetes,thrombosis,rheumatoid arthritis and asthma. Recently,small-molecule and ATP-competitive PI(3)K inhibitors with a wide range of selectivities have entered clinical development. In order to understand the mechanisms underlying the isoform selectivity of these inhibitors,we developed a new expression strategy that enabled us to determine to our knowledge the first crystal structure of the catalytic subunit of the class IA PI(3)K p110 delta. Structures of this enzyme in complex with a broad panel of isoform- and pan-selective class I PI(3)K inhibitors reveal that selectivity toward p110 delta can be achieved by exploiting its conformational flexibility and the sequence diversity of active site residues that do not contact ATP. We have used these observations to rationalize and synthesize highly selective inhibitors for p110 delta with greatly improved potencies. View Publication

BACKGROUND Brain metastases are most common in adults with lung cancer,predicting uniformly poor patient outcome,with a median survival of only months. Despite their frequency and severity,very little is known about tumorigenesis in brain metastases. METHODS We applied previously developed primary solid tumor-initiating cell models to the study of brain metastases from the lung to evaluate the presence of a cancer stem cell population. Patient-derived brain metastases (n = 20) and the NCI-H1915 cell line were cultured as stem-enriching tumorspheres. We used in vitro limiting-dilution and sphere-forming assays,as well as intracranial human-mouse xenograft models. To determine genes overexpressed in brain metastasis tumorspheres,we performed comparative transcriptome analysis. All statistical analyses were two-sided. RESULTS Patient-derived brain metastasis tumorspheres had a mean sphere-forming capacity of 33 spheres/2000 cells (SD = 33.40) and median stem-cell frequency of 1/60 (range = 0-1/141),comparable to that of primary brain tumorspheres (P = .53 and P = .20,respectively). Brain metastases also expressed CD15 and CD133,markers suggestive of a stemlike population. Through intracranial xenotransplantation,brain metastasis tumorspheres were found to recapitulate the original patient tumor heterogeneity. We also identified several genes overexpressed in brain metastasis tumorspheres as statistically significant predictors of poor survival in primary lung cancer. CONCLUSIONS For the first time,we demonstrate the presence of a stemlike population in brain metastases from the lung. We also show that NCI-H1915 tumorspheres could be useful in studying self-renewal and tumor initiation in brain metastases. Our candidate genes may be essential to metastatic stem cell populations,where pathway interference may be able to transform a uniformly fatal disease into a more localized and treatable one. View Publication