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

RATIONALE: Human embryonic stem cells can form cardiomyocytes when cultured under differentiation conditions. Although the initiating step of mesoderm formation is well characterized,the subsequent steps that promote for cardiac lineages are poorly understood and limit the yield of cardiomyocytes. OBJECTIVE: Our aim was to develop a human embryonic stem cell-based high-content screening assay to discover small molecules that drive cardiogenic differentiation after mesoderm is established to improve our understanding of the biology involved. Screening of libraries of small-molecule pathway modulators was predicted to provide insight into the cellular proteins and signaling pathways that control stem cell cardiogenesis. METHODS AND RESULTS: Approximately 550 known pathway modulators were screened in a high-content screening assay,with hits being called out by the appearance of a red fluorescent protein driven by the promoter of the cardiac-specific MYH6 gene. One potent small molecule was identified that inhibits transduction of the canonical Wnt response within the cell,which demonstrated that Wnt inhibition alone was sufficient to generate cardiomyocytes from human embryonic stem cell-derived mesoderm cells. Transcriptional profiling of inhibitor-treated compared with vehicle-treated samples further indicated that inhibition of Wnt does not induce other mesoderm lineages. Notably,several other Wnt inhibitors were very efficient in inducing cardiogenesis,including a molecule that prevents Wnts from being secreted by the cell,which confirmed that Wnt inhibition was the relevant biological activity. CONCLUSIONS: Pharmacological inhibition of Wnt signaling is sufficient to drive human mesoderm cells to form cardiomyocytes; this could yield novel tools for the benefit of pharmaceutical and clinical applications. View Publication

Copy number variation (CNV) is a common chromosomal alteration that can occur during in vitro cultivation of human cells and can be accompanied by the accumulation of mutations in coding region sequences. We describe here a systematic application of current molecular technologies to provide a detailed understanding of genomic and sequence profiles of human embryonic stem cell (hESC) lines that were derived under GMP-compliant conditions. We first examined the overall chromosomal integrity using cytogenetic techniques to determine chromosome count,and to detect the presence of cytogenetically aberrant cells in the culture (mosaicism). Assays of copy number variation,using both microarray and sequence-based analyses,provide a detailed view genomic variation in these lines and shows that in early passage cultures of these lines,the size range and distribution of CNVs are entirely consistent with those seen in the genomes of normal individuals. Similarly,genome sequencing shows variation within these lines that is completely within the range seen in normal genomes. Important gene classes,such as tumor suppressors and genetic disease genes,do not display overtly disruptive mutations that could affect the overall safety of cell-based therapeutics. Complete sequence also allows the analysis of important transplantation antigens,such as ABO and HLA types. The combined application of cytogenetic and molecular technologies provides a detailed understanding of genomic and sequence profiles of GMP produced ES lines for potential use as therapeutic agents. View Publication

BACKGROUND Human papillomavirus 16 (HPV16) is a major risk factor for the development of head and neck squamous cell carcinoma (HNSCC),particularly the development of oropharyngeal squamous cell carcinoma (OPSCC). Cancer stem cells (CSCs) are resistant to conventional therapies,and it is postulated that they are responsible for disease recurrence and/or progression. Because the prognoses of patients with HPV16-positive and HPV-negative HNSCC are distinct,the authors sought to determine whether differences in the number of CSCs could account for this clinical observation. METHODS CSC populations in HPV16-positive and HPV-negative HNSCC were assessed using a proprietary assay based on expression of the enzyme aldehyde dehydrogenase (ALDH),an in vitro tumorsphere formation assay,and an in vivo limiting cell dilution in nonobese diabetic/severe combined immunodeficiency mice. A high-density tissue microarray was stained with ALDH1,a CSC marker,to determine the association between CSCs and HPV16-positive/HPV-negative OPSCC. RESULTS HPV16-positive HNSCC had a greater intrinsic CSC pool than HPV-negative HNSCC. Inactivation of p53 has been identified as a major mechanism for the elevated CSC population in HPV16-positive HNSCC. In vivo limiting cell dilution experiments using tumors from patients with HPV16-positive and HPV-negative OPSCC indicated that the CSC frequency was 62.5-fold greater in an HPV16-positive OPSCC tumor than in an HPV-negative OPSCC tumor. Primary tumors from patients with HPV16-positive OPSCC were associated with elevated tumor ALDH1 staining,further extending the association between HPV16 and CSCs. CONCLUSIONS The current data and the clinical observation that patients with HPV16-positive HNSCC respond more favorably to current treatment paradigms than patients with HPV-negative HNSCC support the suggestion that CSC phenotype is not homogeneous. Therefore,the reliance on the CSC number may be insufficient to accurately assess the potential of a particular tumor for disease recurrence and/or progression. View Publication

The complement activation product,C5a,is a pivotal member of the innate immune response; however,a diverse number of nonimmune functions are now being ascribed to C5a signaling,including roles during embryonic development. Here,we identify the expression of the C5a precursor protein,C5,as well as the C5a receptors,C5aR and C5L2,in both human embryonic stem cells and human-induced pluripotent stem cells. We show that administration of a physiologically relevant dose of purified human C5a (1 nM) stimulates activation of ERK1/2 and AKT signaling pathways,and is able to promote maintenance of the pluripotent state in the absence of FGF2. C5a also reduced cell loss following dissociation of human pluripotent stem cells. Our results reveal that complement C5a signaling supports human stem cell pluripotency and survival,and thus may play a key role in shaping early human embryonic development. Stem Cells 2014;32:3278-3284. View Publication

Stem cell-based neuronal differentiation has provided a unique opportunity for disease modeling and regenerative medicine. Neurospheres are the most commonly used neuroprogenitors for neuronal differentiation,but they often clump in culture,which has always represented a challenge for neurodifferentiation. In this study,we report a novel method and defined culture conditions for generating sub-type or region-specific neurons from human embryonic and induced pluripotent stem cells derived neurosphere without any genetic manipulation. Round and bright-edged neurospheres were generated in a supplemented knockout serum replacement medium (SKSRM) with 10% CO2,which doubled the expression of the NESTIN,PAX6 and FOXG1 genes compared with those cultured with 5% CO2. Furthermore,an additional step (AdSTEP) was introduced to fragment the neurospheres and facilitate the formation of a neuroepithelial-type monolayer that we termed the neurosphederm". The large neural tube-type rosette (NTTR) structure formed from the neurosphederm� View Publication

DNA methylation regulates gene expression in normal and malignant cells. The possibility to reactivate epigenetically silenced genes has generated considerable interest in the development of DNA methyltransferase inhibitors. Here,we provide a detailed characterization of RG108,a novel small molecule that effectively blocked DNA methyltransferases in vitro and did not cause covalent enzyme trapping in human cell lines. Incubation of cells with low micromolar concentrations of the compound resulted in significant demethylation of genomic DNA without any detectable toxicity. Intriguingly,RG108 caused demethylation and reactivation of tumor suppressor genes,but it did not affect the methylation of centromeric satellite sequences. These results establish RG108 as a DNA methyltransferase inhibitor with fundamentally novel characteristics that will be particularly useful for the experimental modulation of epigenetic gene regulation. View Publication

Human metapneumovirus (hMPV) is a recently described member of the Paramyxoviridae family/Pneumovirinae subfamily and shares many common features with respiratory syncytial virus (RSV),another member of the same subfamily. hMPV causes respiratory tract illnesses that,similar to human RSV,occur predominantly during the winter months and have symptoms that range from mild to severe cough,bronchiolitis,and pneumonia. Like RSV,the hMPV virus can be subdivided into two genetic subgroups,A and B. With RSV,a single monoclonal antibody directed at the fusion (F) protein can prevent severe lower respiratory tract RSV infection. Because of the high level of sequence conservation of the F protein across all the hMPV subgroups,this protein is likely to be the preferred antigenic target for the generation of cross-subgroup neutralizing antibodies. Here we describe the generation of a panel of neutralizing monoclonal antibodies that bind to the hMPV F protein. A subset of these antibodies has the ability to neutralize prototypic strains of both the A and B hMPV subgroups in vitro. Two of these antibodies exhibited high-affinity binding to the F protein and were shown to protect hamsters against infection with hMPV. The data suggest that a monoclonal antibody could be used prophylactically to prevent lower respiratory tract disease caused by hMPV. View Publication