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Cell Meter™ Live Cell Caspase 9 Binding Assay Kit *Green Fluorescence*
Our Cell Meter™ live cell caspases activity assay kits are based on fluorescent FMK inhibitors of caspases. These inhibitors are cell permeable and non-cytotoxic. Once inside the cell, the caspase inhibitors bind covalently to the active caspases. This Cell Meter™ Live Cell Caspase 9 Activity Assay Kit is designed to detect cell apoptosis by measuring caspase 9 activation in live cells. It is used for the quantification of activated caspase 9 activities in apoptotic cells, or for screening caspase 9 inhibitors. FAM-LEHD-FMK, the green label reagent, allows for direct detection of activated caspase 9 in apoptotic cells by fluorescence microscopy, flow cytometer, or fluorescent microplate reader. The kit provides all the essential components with an optimized assay protocol.
Example protocol
AT A GLANCE
Protocol summary
- Prepare cells with test compounds at a density of 5 × 105 to 2 × 106 cells/mL
- Add FAM-LEHD-FMK into cell solution at 1:150 ratio
- Incubate at room 37oC for 1 hour
- Pellet the cells, wash and resuspend the cells with buffer or growth medium
- Optional: label the cells iwth DNA stain Propidium Iodide or Hoechst 33342
- Analyze the cells with flow cytometer using 530/30 nm filter (FiTC channel), fluorescence microscope using FITC filter or fluorescence micro plate reader at 490/525 nm (Cutoff=515 nm)
Important notes
Thaw all the components at room temperature before use.
PREPARATION OF STOCK SOLUTION
Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.
1. FAM-LEHD-FMK DMSO stock solution (150X):
Add 50 µL of DMSO to the vial of FAM-LEHD-FMK (Component A).
For guidelines on cell sample preparation, please visit
https://www.aatbio.com/resources/guides/cell-sample-preparation.html
SAMPLE EXPERIMENTAL PROTOCOL
- Examples for inducing apoptosis in suspension culture:
Treat Jurkat cells with 2 µg/ml camptothecin for 3 hours
Treat Jurkat cells with 1 µM staurosporine for 3 hours
Treat HL-60 cells with 4 µg/ml camptothecin for 4 hours
Treat HL-60 cells with 1 µM staurosporine for 4 hours. Note: Each cell line should be evaluated on an individual basis to determine the optimal cell density for apoptosis induction - Add 150 X FAM-LEHD-FMK into the cell solution at a 1:150 ratio, and incubate the cells in a 37°C, 5% CO2 incubator for 1 hour. Note: The cells can be concentrated up to ~5 X 106 cells/mL for FAM-LEHD-FMK labeling. The appropriate incubation time depends on the individual cell type and cell concentration used.
- Spin down the cells at ~200g for 5 minutes, and wash cells with 1 mL washing buffer (Component B) twice. Resuspend the cells in desired amount of washing buffer. Note: FAM-LEHD-FMK is fluorescent, thus it is important to wash out any unbound reagent to eliminate the background.
- If desired, label the cells with a DNA stain (such as propidium iodide for dead cells, or Hoechst for whole population of the cell nucleus stain).
- Monitor the fluorescence intensity by fluorescence microscopy, flow cytometer, or fluorescent microplate reader according to table 1 or table 2. For fluorescence microscopy and fluorescent microplate reader, place 100 µL of the cell suspensions into each of wells of a 96-well black microtiter plate. Note: For detached cells, the concentration of cells should be adjusted to 2 - 5 X 105 cells/100 µL aliquot per microtiter plate well.
Table 1. Fluorescence intensity monitoring for flow cytometry and fluoresence microscopes.
| Flow Cytometry | Fluorescence Microscope | |
| FAM-LEHD-FMK | 530/30 nm filter (FITC channel) | FITC channel |
| Propidium Iodide | 610/20 nm filter (PE-Texas Red channel) | TRITC channel |
| Hoechst Dye | 450/40 nm filter (Pacific Blue channel) | DAPI channel |
Table 2. Fluorescence intensity monitoring for fluorescence microplate readers.
| Excitation | Emission | Cut Off | |
| FAM-LEHD-FMK | 490 nm | 525 nm | 515 nm |
| Propidium Iodide | 535 nm | 635 nm | |
| Hoechst Dye | 350 nm | 461 nm |
Spectrum
Product family
| Name | Excitation (nm) | Emission (nm) | Extinction coefficient (cm -1 M -1) | Correction Factor (260 nm) | Correction Factor (280 nm) |
| Cell Meter™ Live Cell Caspase 1 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
| Cell Meter™ Live Cell Caspase 2 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
| Cell Meter™ Live Cell Caspase 6 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
| Cell Meter™ Live Cell Caspase 8 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
| Cell Meter™ Live Cell Caspase 10 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
| Cell Meter™ Live Cell Caspase 13 Binding Assay Kit *Green Fluorescence* | 493 | 517 | 83000 | 0.32 | 0.178 |
Citations
View all 3 citations: Citation Explorer
Helicobacter pylori Secreted Protein HP1286 Triggers Apoptosis in Macrophages via TNF-Independent and ERK MAPK-Dependent Pathways
Authors: Tavares, Raquel and Pathak, Sushil Kumar
Journal: Frontiers in Cellular and Infection Microbiology (2017): 58
Authors: Tavares, Raquel and Pathak, Sushil Kumar
Journal: Frontiers in Cellular and Infection Microbiology (2017): 58
Death receptor 3 mediates necroptotic cell death
Authors: Bittner, Sebastian and Knoll, Gertrud and Ehrenschwender, Martin
Journal: Cellular and Molecular Life Sciences (2016): 1--12
Authors: Bittner, Sebastian and Knoll, Gertrud and Ehrenschwender, Martin
Journal: Cellular and Molecular Life Sciences (2016): 1--12
Helicobacter pylori protein JHP0290 exhibits proliferative and anti-apoptotic effects in gastric epithelial cells
Authors: Tavares, Raquel and Pathak, Sushil Kumar
Journal: PloS one (2015): e0124407
Authors: Tavares, Raquel and Pathak, Sushil Kumar
Journal: PloS one (2015): e0124407
References
View all 50 references: Citation Explorer
Structure of human caspase-6 in complex with Z-VAD-FMK: New peptide binding mode observed for the non-canonical caspase conformation
Authors: Muller I, Lamers MB, Ritchie AJ, Dominguez C, Munoz-Sanjuan I, Kiselyov A.
Journal: Bioorg Med Chem Lett (2011): 5244
Authors: Muller I, Lamers MB, Ritchie AJ, Dominguez C, Munoz-Sanjuan I, Kiselyov A.
Journal: Bioorg Med Chem Lett (2011): 5244
Intracochlear perfusion of leupeptin and z-VAD-FMK: influence of antiapoptotic agents on gunshot-induced hearing loss
Authors: Abaamrane L, Raffin F, Schmerber S, Sendowski I.
Journal: Eur Arch Otorhinolaryngol (2011): 987
Authors: Abaamrane L, Raffin F, Schmerber S, Sendowski I.
Journal: Eur Arch Otorhinolaryngol (2011): 987
In vitro effect of different mediators of apoptosis on canine cranial and caudal cruciate ligament fibroblasts and its reversibility by pancaspase inhibitor zVAD.fmk
Authors: Forterre S, Zurbriggen A, Spreng D.
Journal: Vet Immunol Immunopathol (2011): 264
Authors: Forterre S, Zurbriggen A, Spreng D.
Journal: Vet Immunol Immunopathol (2011): 264
Experimental study on treatment of rabbits optic nerve injury with Caspase-3 inhibitor z-DEVD-fmk
Authors: Zhang W, Yu JG, Wang X, Shen ZS, Zhang JK, Yan H.
Journal: Zhonghua Yan Ke Za Zhi (2010): 1084
Authors: Zhang W, Yu JG, Wang X, Shen ZS, Zhang JK, Yan H.
Journal: Zhonghua Yan Ke Za Zhi (2010): 1084
Caspase inhibitor ZVAD-fmk facilitates engraftment of donor hematopoietic stem cells in intra-bone marrow-bone marrow transplantation
Authors: Imai Y, Adachi Y, Shi M, Shima C, Yanai S, Okigaki M, Yamashima T, Kaneko K, Ikehara S.
Journal: Stem Cells Dev (2010): 461
Authors: Imai Y, Adachi Y, Shi M, Shima C, Yanai S, Okigaki M, Yamashima T, Kaneko K, Ikehara S.
Journal: Stem Cells Dev (2010): 461
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