产品号 #05761_C
培养人神经干细胞和祖细胞的无xeno培养基
Products for Your Protocol
To see all required products for your protocol, please consult the Protocols and Documentation.
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Heparin SolutionCell culture supplement
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Human Recombinant bFGFBasic fibroblast growth factor
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Human Recombinant EGFEpidermal growth factor
概述
NeuroCult™-XF增殖培养基是一种标准化、无异种、无血清培养基,用于在神经球或贴壁单层系统中培养来自正常组织或肿瘤样本的人类神经干和祖细胞。当补充适当的细胞因子时,NeuroCult™-XF增殖培养基经过优化,可使人神经干细胞在培养中维持较长时间,而不会丧失其自我更新、增殖或分化的潜力。
注:需要添加无载波rh EGF(目录#78006)和rh bFGF(目录#78003)。肝素(目录#07980)也可以添加,然而,肝素溶液含有非人类动物来源的成分,如果需要一个完整的无xeno系统,可以省略。
Subtype
Specialized Media
Cell Type
Brain Tumor Stem Cells, Neural Stem and Progenitor Cells
Species
Human
Application
Cell Culture, Colony Assay, Expansion, Functional Assay, Spheroid Culture
Brand
NeuroCult
Area of Interest
Cancer, Disease Modeling, Drug Discovery and Toxicity Testing, Neuroscience, Stem Cell Biology, Transplantation Research
Formulation Category
Serum-Free, Xeno-Free
Data Figures
Protocols and Documentation
Find supporting information and directions for use in the Product Information Sheet or explore additional protocols below.
Applications
This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.
Resources and Publications
Educational Materials (11)
Publications (3)
The Use of Autologous Mesenchymal Stem Cells for Cell Therapy of Patients with Amyotrophic Lateral Sclerosis in Belarus. Bulletin of experimental biology and medicine 2015 AUG
Abstract
We studied a new method of treatment of amyotrophic lateral sclerosis with autologous mesenchymal stem cells. Autologous mesenchymal stem cells were injected intravenously (intact cells) or via lumbar puncture (cells committed to neuronal differentiation). Evaluation of the results of cell therapy after 12-month follow-up revealed slowing down of the disease progression in 10 patients in comparison with the control group consisting of 15 patients. The cell therapy was safe for the patients.
Chemically defined serum-free and xeno-free media for multiple cell lineages. Annals of translational medicine 2014 OCT
Abstract
Cell culture is one of the most common methods used to recapitulate a human disease environment in a laboratory setting. Cell culture techniques are used to grow and maintain cells of various types including those derived from primary tissues, such as stem cells and cancer tumors. However, a major confounding factor with cell culture is the use of serum and animal (xeno) products in the media. The addition of animal products introduces batch and lot variations that lead to experimental variability, confounds studies with therapeutic outcomes for cultured cells, and represents a major cost associated with cell culture. Here we report a commercially available serum-free, albumin-free, and xeno free (XF) media (Neuro-Pure(TM)) that is more cost-effective than other commercial medias. Neuro-Pure was used to maintain and differentiate various cells of neuronal lineages, fibroblasts, as well as specific cancer cell lines; without the use of contaminants such serum, albumin, and animal products. Neuro-Pure allows for a controlled and reproducible cell culture environment that is applicable to translational medicine and general tissue culture.
Hypoxia induces a phase transition within a kinase signaling network in cancer cells Proceedings of the National Academy of Sciences 2013 APR
Abstract
Hypoxia is a near-universal feature of cancer, promoting glycolysis, cellular proliferation, and angiogenesis. The molecular mechanisms of hypoxic signaling have been intensively studied, but the impact of changes in oxygen partial pressure (pO2) on the state of signaling networks is less clear. In a glioblastoma multiforme (GBM) cancer cell model, we examined the response of signaling networks to targeted pathway inhibition between 21% and 1% pO2. We used a microchip technology that facilitates quantification of a panel of functional proteins from statistical numbers of single cells. We find that near 1.5% pO2, the signaling network associated with mammalian target of rapamycin (mTOR) complex 1 (mTORC1)--a critical component of hypoxic signaling and a compelling cancer drug target--is deregulated in a manner such that it will be unresponsive to mTOR kinase inhibitors near 1.5% pO2, but will respond at higher or lower pO2 values. These predictions were validated through experiments on bulk GBM cell line cultures and on neurosphere cultures of a human-origin GBM xenograft tumor. We attempt to understand this behavior through the use of a quantitative version of Le Chatelier's principle, as well as through a steady-state kinetic model of protein interactions, both of which indicate that hypoxia can influence mTORC1 signaling as a switch. The Le Chatelier approach also indicates that this switch may be thought of as a type of phase transition. Our analysis indicates that certain biologically complex cell behaviors may be understood using fundamental, thermodynamics-motivated principles.
更多信息
| Species | Human |
|---|---|
| Formulation Category | Serum-Free, Xeno-Free |
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Legal Statement: Sold under license from StemCells California, Inc. US Patent Nos. 5,750,376; 5,851,832; 5,980,885; 5,968,829; 5,981,165; 6,071,889; 6,093,531; 6,103,530; 6,165,783; 6,238,922. PRODUCTS ARE FOR RESEARCH USE ONLY AND NOT INTENDED FOR HUMAN OR ANIMAL DIAGNOSTIC OR THERAPEUTIC USES UNLESS OTHERWISE STATED. FOR ADDITIONAL INFORMATION ON QUALITY AT STEMCELL, REFER TO WWW.STEMCELL.COM/COMPLIANCE.
