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CytoSelect™ Cell Viability and Cytotoxicity Assay

CA 适用: 哺乳动物 Colorimetric Cell Samples
产品编号 ABIN2344919
发货至: 中国
  • 适用
    哺乳动物
    检测方法
    Colorimetric
    应用范围
    Cellular Assay (CA)
    原理
    CytoSelect™ Cell Viability and Cytotoxicity Assay Kit provides a colorimetric and fluorometric format for measuring and monitoring cell viability.
    品牌
    CytoSelect™
    样品类型
    Cell Samples
    组件
    1. MTT Colorimetric Reagent : One vial - 1 mL
    2. Detergent Solution : One bottle - 10 mL
    3. Calcein AM (500X) : One vial - 50 μL in DMSO.
    4. Ethidium Homodimer (EthD-1) (500X) : One vial - 50 μL.
    5. Saponin (100X) : One vial - 100 μL
    试剂未包括
    1. Cells for measuring viability
    2. Cell culture medium
    3. Microtiter plate reader
    4. 24-well or 96-well black-walled fluorescence microtiter cell culture plates.
    5. Fluorometer capable of the green Calcein AM (Ex: 485 nm and Em: 515 nm) or red EthD-1 (Ex: 525 nm and Em: 590 nm) fluorescence.
  • 应用备注
    Optimal working dilution should be determined by the investigator.
    说明

    • Detect live and dead cells by microscopy, plate reader, or flow cytometry
    • Both live and dead cells may be quantified on a fluorescence plate reader, live cells may also be quantified on a standard colorimetric (ELISA) plate reader

    实验流程
    The kit contains MTT reagent, Calcein AM, and Ethidium Homodimer. Detergent and Lysis Buffer are provided for extracting the MTT reagent or the Calcein AM/EthD-1 from cell samples. Saponin, a cell death initiator, is also included as a control. The kit is suitable for use with light and fluorescence microscopes, colorimetric and fluorometric multiwell plate scanners, flow cytometers, and other colorimetric or fluorometric detection systems. The kit contains sufficient reagents for the evaluation of 96 assays in a 96-well plate, or 24 assays in a 24-well plate. Cells can then be treated with compounds or agents that affect viability. Live cells are detected with the MTT reagent as well as the Calcein AM. Dead cells are detected with the EthD-1 reagent. Finally, cell viability/cytotoxicity is determined using the colorimetric and fluorometric detection reagents. An increase in cell viability is accompanied by cell growth, while a decrease in cell viability can indicate the toxic effects of compounds or suboptimal culture conditions. The assay principles are basic and can be applied to most eukaryotic cell lines, including adherent and non-adherent cells and certain tissues. The kit does not react with bacteria or yeast.
    试剂准备

    Allow all reagents to warm to room temperature before use. Centrifuge all vials briefly prior to opening.

    • Calcein AM/EthD-1 Solution: Prepare a 1X Calcein AM/EthD-1 solution by diluting the provided stocks 1:500 in medium. For example, to prepare a 5.0 mL solution, add 10 μL of Calcein AM and 10 μL of EthD-1 to 4.980 mL of medium. Vortex thoroughly. Note: Prepare only the amount necessary for the immediate application. Do not store diluted solutions of Calcein AM or Ethidium Homodimer.
    • 1X Saponin Solution: Prepare a 1X Saponin solution by diluting the provided stock 1:100 in media. Vortex thoroughly. Store the diluted solution at 4 °C. 3

    实验流程

    Note: This protocol is written for use with adherent cell lines. Non-adherent cell lines may also be used by incubating cells in a 96-well or 24-well plate. Washes can be done in a test tube or microcentrifuge tube.

    1. Prepare a cell suspension containing 0.5-2.0 x 106 cells/mL in medium.
    2. Add 10,000 to 50,000 cells per well to a 96-well cell culture plate or 50,000 to 100,000 cells per well to a 24-well cell culture plate. Culture the cells 12-24 hours at 37 °C and 5 % CO2. The time and culture conditions will depend on the cell line used and may need to be adjusted.
    3. Gently remove the media from the wells.
    4. Wash each well with three times with medium to remove loosely attached and dead cells.
    5. (optional) Add 1X Saponin solution to control wells to initiate cell death (100 μL/well in a 96- well plate or 250 μL/well in a 24-well plate). Incubate the plate for 10 minutes at room temperature. Carefully remove the media from the wells. Wash each well once with medium. Note: Saponin treated cells are very loosely attached to the plate. Gentle washing is essential to minimize cell loss. Detection Protocol Cell viability may be determined using either of the following methods.

      I. MTT Colorimetric Detection

      1. Add media to each well as follows: 100 μL/well in a 96-well plate or 250 μL/well in a 24-well plate. Note: Include blank control wells of medium only for absorbance readings.
      2. Add the MTT Reagent to each well at a 1:10 ratio. For example, add 10 μL/well for a 96-well plate or 25 μL/well for a 24-well plate.
      3. Incubate the wells 2-4 hours or overnight at 37 °C. Monitor the cells occasionally with an inverted microscope for the presence of a purple precipitate.
      4. Once the precipitate is clearly visible, add 100 μL of Detergent Solution for every 10 μL of MTT Reagent added to each well (100 μL/well for a 96-well plate or 250 μL/well for a 24-well plate). Gently mix the solution by pipetting.
      5. Cover the plate to protect it from light and incubate in the dark for 2-4 hours at room temperature.
      6. Remove the plate cover and measure the absorbance in each well at 570 nm in a microtiter plate reader. For samples run in a 24-well plate, transfer 150 μL to a 96-well plate and measure the absorbance in each well at 570 nm in a microtiter plate reader.
      7. If the values appear to be low, incubate the plate longer in the dark. 4

      II. Calcein AM/EthD-1 Fluorometric Detection

      1. Add Calcein AM/EthD-1 solution to each well as follows: 100 μL/well in a 96-well plate or 400 μL in a 24-well plate. Note: Include blank control wells of medium only for background fluorescence readings.
      2. Incubate the plate 30 minutes at 37 °C
      3. Remove the Calcein AM/EthD-1 solution. Wash wells 2 times with medium.
      4. After the last wash, add enough medium to cover the cells.
      5. Monitor the cells microscopically for the presence of the green Calcein (Ex: 485 nm and Em: 515 nm) or red EthD-1 (Ex: 525 nm and Em: 590 nm) fluorescence. The fluorescence can be quantitatively measured with a fluorescence microplate reader. Calculation of Results Relative numbers of live and dead cells can be expressed as percentages or as absolute numbers of cells. The absolute number of viable cells in a sample can be obtained by creating a standard curve of cell number versus MTT absorbance or Calcein fluorescence at 515 nm. Likewise, the absolute number of dead cells in a sample can be obtained by creating a standard curve of cell number versus EthD-1 fluorescence at 590nm after Saponin treatment. The absorbance reading or fluorescence intensity is linearly related to the number of cells in the sample.

    限制
    仅限研究用
  • 储存条件
    4 °C/-20 °C
    储存方法
    Store the Calcein AM and Ethidium Homodimer at -20°C. Store all remaining kit components at 4°C until their expiration dates.
  • Saarinen, Sözeri, Fraser-Miller, Peltonen, Santos, Isomäki, Strachan: "Insights into Caco-2 cell culture structure using coherent anti-Stokes Raman scattering (CARS) microscopy." in: International journal of pharmaceutics, Vol. 523, Issue 1, pp. 270-280, (2017) (PubMed).

    Doeppner, Traut, Heidenreich, Kaltwasser, Bosche, Bähr, Hermann: "Conditioned Medium Derived from Neural Progenitor Cells Induces Long-term Post-ischemic Neuroprotection, Sustained Neurological Recovery, Neurogenesis, and Angiogenesis." in: Molecular neurobiology, (2016) (PubMed).

    Jia, Cavileer, Nagler: "Acute hyperthermic responses of heat shock protein and estrogen receptor mRNAs in rainbow trout hepatocytes." in: Comparative biochemistry and physiology. Part A, Molecular & integrative physiology, Vol. 201, pp. 156-61, (2016) (PubMed).

    Maity, De, Das, Banerjee, Sarkar, Banerjee: "Aspirin blocks growth of breast tumor cells and tumor-initiating cells and induces reprogramming factors of mesenchymal to epithelial transition." in: Laboratory investigation; a journal of technical methods and pathology, Vol. 95, Issue 7, pp. 702-17, (2015) (PubMed).

    Hermann, Zechariah, Kaltwasser, Bosche, Caglayan, Kilic, Doeppner: "Sustained neurological recovery induced by resveratrol is associated with angioneurogenesis rather than neuroprotection after focal cerebral ischemia." in: Neurobiology of disease, Vol. 83, pp. 16-25, (2015) (PubMed).

    Wu, Fu, Xiao, Wu, Wu: "MiR-34a regulates therapy resistance by targeting HDAC1 and HDAC7 in breast cancer." in: Cancer letters, Vol. 354, Issue 2, pp. 311-9, (2014) (PubMed).

    Tong, Wan, Zhang, Duan, Tang, Chen, Tang, Su: "Vascular endothelial cell injury partly induced by mesenteric lymph in heat stroke." in: Inflammation, Vol. 37, Issue 1, pp. 27-34, (2014) (PubMed).

    Kim, Anderson, Dryer et al.: "Sustained activation of N-methyl-D-aspartate receptors in podoctyes leads to oxidative stress, mobilization of transient receptor potential canonical 6 channels, nuclear factor of activated T cells ..." in: Molecular pharmacology, Vol. 82, Issue 4, pp. 728-37, (2012) (PubMed).

  • 背景
    The measurement and monitoring of cell viability is an essential technique in any laboratory focused on cell-based research. This skill allows for the optimization of cell culture conditions as well as the determination of cytokine, growth factor, or hormone activity. More importantly, the cytostatic nature of anticancer compounds in toxicology testing, the efficacy of therapeutic chemicals in drug screening, and cell-mediated cytotoxicity can all be assessed through the quantification and monitoring of cell viability and growth. Cell viability characteristics include cellular metabolic activity and cell membrane integrity. One method for measuring metabolic activity is to incubate the cells with a tetrazolium salt such as MTT, which is cleaved into a colored formazan product by metabolically active cells. The green fluorescent viability dye Calcein AM can measure intracellular esterase activity, which is another indicator of cell viability. Live cells can convert the nonfluorescent, cell-permeable polyanionic calcein acetoxymethyl (Calcein AM) dye to the highly fluorescent calcein. The cleaved calcein remains in the cells. Ethidium homodimer (EthD-1) is an excellent marker for measuring dead cells. EthD-1 is a red fluorescent dye that can only penetrate damaged cell membranes. EthD-1 will fluoresce with a 40-fold enhancement upon binding ssDNA, dsDNA, RNA, oligonucleotides, and triplex DNA. Background fluorescence levels are very low because the dyes are virtually non-fluorescent before interacting with cells. This method of detection is more efficient, safer, less expensive, and a more sensitive method for determining cell viability or cytotoxicity compared to traditional viability assays such as 51Cr release or trypan blue exclusion.
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