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

The aim of this study was to vascularize brain organoids with a patient's own endothelial cells (ECs). Induced pluripotent stem cells (iPSCs) of one UC Davis patient were grown into whole-brain organoids. Simultaneously,iPSCs from the same patient were differentiated into ECs. On day 34,the organoid was re-embedded in Matrigel with 250 000 ECs. Vascularized organoids were grown in vitro for 3-5 weeks or transplanted into immunodeficient mice on day 54,and animals were perfused on day 68. Coating of brain organoids on day 34 with ECs led to robust vascularization of the organoid after 3-5 weeks in vitro and 2 weeks in vivo. Human CD31-positive blood vessels were found inside and in-between rosettes within the center of the organoid after transplantation. Vascularization of brain organoids with a patient's own iPSC-derived ECs is technically feasible. View Publication

A battery of clonal assays for myeloid progenitor cells (HPP-CFC,CFU-gemm,CFU-gm,CFU-g) was utilized to evaluate the myelotoxicity of a series of alkylating agents representing the spectrum of clinical times to nadir. Bone marrow aspirates from normal volunteers were incubated with mechlorethamine,busulfan,melphalan,carmustine or lomustine for 1 h and then cultured in methylcellulose with 30% serum and cytokines. There was a concentration-dependent inhibition of colony formation and often a differential toxicity to the myeloid progenitors with the alkylators tested. On a molar basis,mechlorethamine and melphalan were the most toxic of the alkylator drugs to the myeloid precursors. The most sensitive progenitor was CFU-gemm with the lowest inhibitory concentration IC(70) concentrations for mechlorethamine,melphalan,carmustine and lomustine. Generally,there was great similarity for drug effects between CFU-g and CFU-gm with overlapping inhibition curves. HPP-CFC proved to be the least sensitive of the progenitors to the toxic actions of the drugs. While there was no correlation between the time to clinical neutropenic nadir and the most sensitive progenitor in the clonal assays,the CFU-gm assay remains a suitable method for determining the myelotoxic potential of cytotoxic agents. 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

Certain limitations of the neurosphere assay (NSA) have resulted in a search for alternative culture techniques for brain tumor-initiating cells (TICs). Recently,reports have described growing glioblastoma (GBM) TICs as a monolayer using laminin. We performed a side-by-side analysis of the NSA and laminin (adherent) culture conditions to compare the growth and expansion of GBM TICs. GBM cells were grown using the NSA and adherent culture conditions. Comparisons were made using growth in culture,apoptosis assays,protein expression,limiting dilution clonal frequency assay,genetic affymetrix analysis,and tumorigenicity in vivo. In vitro expansion curves for the NSA and adherent culture conditions were virtually identical (P=0.24) and the clonogenic frequencies (5.2% for NSA vs. 5.0% for laminin,P=0.9) were similar as well. Likewise,markers of differentiation (glial fibrillary acidic protein and beta tubulin III) and proliferation (Ki67 and MCM2) revealed no statistical difference between the sphere and attachment methods. Several different methods were used to determine the numbers of dead or dying cells (trypan blue,DiIC,caspase-3,and annexin V) with none of the assays noting a meaningful variance between the two methods. In addition,genetic expression analysis with microarrays revealed no significant differences between the two groups. Finally,glioma cells derived from both methods of expansion formed large invasive tumors exhibiting GBM features when implanted in immune-compromised animals. A detailed functional,protein and genetic characterization of human GBM cells cultured in serum-free defined conditions demonstrated no statistically meaningful differences when grown using sphere (NSA) or adherent conditions. Hence,both methods are functionally equivalent and remain suitable options for expanding primary high-grade gliomas in tissue culture. View Publication

Patient specific induced pluripotent stem cells (iPSCs) derived ? cells represent an effective means for disease modeling and autologous diabetes cell replacement therapy. In this study,an AG73-5%gelatin methacryloyl (GelMA) /2% alginate methacrylate (AlgMA) hydrogel was employed to generate pancreatic progenitor (PP) organoids and improve stem cell-derived ? (SC-?) cell differentiation protocol. The laminin-derived homolog AG73,which mimics certain cell?matrix interactions,facilitates AKT signaling pathway activation to promote PDX1+/NKX6.1+ PP organoid formation and effectively modulates subsequent epithelial–mesenchymal transition (EMT) in the endocrine lineage. The 5%GelMA/2%AlgMA hydrogel mimics the physiological stiffness of the pancreas,providing the optimal mechanical stress and spatial structure for PP organoid differentiation. The Syndecan-4 (SDC4)-ITGAV complex plays a pivotal role in the early stages of pancreatic development by facilitating the formation of SOX9+/PDX1+ bipotent PPs. Our findings demonstrate that AG73-GelMA/AlgMA hydrogel-derived SC-? cells exhibit enhanced insulin secretion and accelerated hyperglycemia reversal in vivo. This study presents a cost-effective,stable,and efficient alternative for the comprehensive 3D culture of SC-? cells in vitro by mitigating the uncertainties associated with conventional culture methods. View Publication

To facilitate the characterization of unlabeled induced pluripotent stem cells (iPSCs) during culture and expansion,we developed an AI pipeline for nuclear segmentation and mitosis detection from phase contrast images of individual cells within iPSC colonies. The analysis uses a 2D convolutional neural network (U-Net) plus a 3D U-Net applied on time lapse images to detect and segment nuclei,mitotic events,and daughter nuclei to enable tracking of large numbers of individual cells over long times in culture. The analysis uses fluorescence data to train models for segmenting nuclei in phase contrast images. The use of classical image processing routines to segment fluorescent nuclei precludes the need for manual annotation. We optimize and evaluate the accuracy of automated annotation to assure the reliability of the training. The model is generalizable in that it performs well on different datasets with an average F1 score of 0.94,on cells at different densities,and on cells from different pluripotent cell lines. The method allows us to assess,in a non-invasive manner,rates of mitosis and cell division which serve as indicators of cell state and cell health. We assess these parameters in up to hundreds of thousands of cells in culture for more than 36 hours,at different locations in the colonies,and as a function of excitation light exposure. View Publication

AbstractBackgroundChimeric antigen receptor (CAR) T-cell therapy depends on T cells that are genetically modified to recognize and attack cancer cells. Their effectiveness thus hinges on the functionality of a patient’s own T cells. Since CAR T-cell therapy is currently only approved for advanced cancers after at least one line of chemotherapy,we evaluated the potential negative effects of prior exposure to chemotherapy on T-cell functionality.MethodsWe studied T cells of two B-cell non-Hodgkin’s lymphoma patient cohorts,one collected before treatment (pre-therapy) and the other after one or more (median 3) lines of chemotherapy (post-therapy). Leveraging advanced multiparameter flow cytometry,single-cell RNA sequencing (scRNA-seq),whole-genome DNA methylation arrays and in vitro functionality testing of generated CAR T cells,we compared patient samples in their suitability for effective CAR T-cell therapy.ResultsWe discovered significant modifications in T-cell subsets and their transcriptional profiles secondary to chemotherapy exposure. Our analysis revealed a discernible shift towards phenotypically more differentiated T cells and an upregulation of markers indicative of T-cell exhaustion. Additionally,scRNA-seq and DNA methylation analyses revealed gene expression and epigenetic changes associated with diminished functionality in post-therapy T cells. Cytotoxicity assays demonstrated superior killing efficacy of CAR T cells derived from treatment-naïve patients compared with those with chemotherapy history.ConclusionsThese findings corroborate that employing T cells collected prior to frontline chemotherapy could enhance the effectiveness of CAR T-cell therapy and improve patient outcomes. View Publication

Existing methods for human induced pluripotent stem cell (hiPSC) cardiac differentiation are efficient but require complex,undefined medium constituents that hinder further elucidation of the molecular mechanisms of cardiomyogenesis. Using hiPSCs derived under chemically defined conditions on synthetic matrices,we systematically developed an optimized cardiac differentiation strategy,using a chemically defined medium consisting of just three components: the basal medium RPMI 1640,L-ascorbic acid 2-phosphate and rice-derived recombinant human albumin. Along with small molecule-based induction of differentiation,this protocol produced contractile sheets of up to 95% TNNT2(+) cardiomyocytes at a yield of up to 100 cardiomyocytes for every input pluripotent cell and was effective in 11 hiPSC lines tested. This chemically defined platform for cardiac specification of hiPSCs will allow the elucidation of cardiomyocyte macromolecular and metabolic requirements and will provide a minimal system for the study of maturation and subtype specification. View Publication