Modeling Solid Tumors with Scaffold-Free Models

Figure 1. Monitor spheroid size over time as they grow undisturbed inside your tissue culture incubator.  
Brightfield images show MDA-MB-231 breast cancer spheroids ± cytotoxic agent camptothecin (1 µM).  Vehicle treated spheroids increase in size while CMP treated spheroids remain compact.  Images taken automatically every 6h for quantification of brightfield area.

Figure 2. Reveal morphology with high quality HD phase and DF Brightfield images. High quality HD phase and corresponding DF Brightfield images of spheroids formed from A549 and MDA-MB-231 cells, 72-hours post seeding. Easily distinguish between loose aggregate and compact spheroid morphologies as exemplified here in A549 and MDA-MB-231 cells. Compaction of MDA-MB-231 aggregates into spheroids was achieved by the addition of 2.5% v/v Matrigel^® post centrifugation. All images captured at 10x magnification.

Reveal Cellular Changes Over Time in Mono- or Co-culture

Figure 3. Establish cytotoxic vs cytostatic mechanism of action.   Compare brightfield and fluorescent readouts using Incucyte^® Cytotox Green Dye. Images show green fluorescence within masked brightfield area of SK-OV-3 spheroids 10 days post-treatment.  Timecourse profiles of brightfield area show similar response to both drugs –spheroid growth is inhibited as drug concentrations increase.  Mean green intensity measured within brightfield boundary (bottom row) shows a differential response to cytotoxic (camptothecin, left) and cytostatic (cycloheximide, middle) agents.  In the presence of camptothecin cells die, yielding an increase in fluorescence intensity from the cytotoxicity reporter (Incucyte^® Cytotox Green Dye); cycloheximide and vehicle treated spheroids show only a nominal amount of cell death as expected.

Figure 4. Continuously monitor spheroid growth and cell health in Incucyte^® Live-Cell Analysis System. SK-OV-3 human ovarian carcinoma cells stably expressing nuclear restricted fluorescent protein (Incucyte^® Nuclight Red Lentivirus). A time-dependent increase in fluorescence (measured within the spheroid area defined by the brightfield mask) is inhibited by the cytotoxic drug camptothecin (1 µM).

Figure 5 (Video). Quantify antibody-dependent cell-mediated cytotoxicity (ADCC) in a 3D cell culture model. Trastuzumab (Herceptin^®) induced immune cell killing of SK-OV-3 ovarian cancer cells shown in a spheroid model. Incucyte^® Nuclight Red HER2-positive SKOV-3 spheroids were seeded with PBMCs and treated with Herceptin (mAb targeting HER2 receptors). Herceptin induced inhibition of SKOV-3 spheroid growth.

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Generate Reproducible, Quantitative Data

Figure 6. Incucyte^® lab-tested and validated Single Tumor Spheroid Protocol is easy to follow. Reduce time spent troubleshooting 3D cell culture techniques and eliminate the need for a trial-and-error approach to obtain images suitable for quantitative analysis.

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Figure 7. Spheroid growth assay shows robustness and reproducibility. Incucyte^® VesselView shows masked brightfield area of three spheroid types (lung carcinoma, fibrosarcoma, ovarian carcinoma) at four cell densities. The brightfield area plot indicates that the recommended seeding density (2500 cells/well) for each of these cell types yields a robust timecourse.

Figure 8. Perform robust pharmacological analysis in physiologically relevant conditions. Effect of camptothecin (CMP), cisplatin (CIS) and oxaliplatin (OXA) on growth of SKOV-3 cells in a spheroid assay performed inside a tissue culture incubator and without labels. SKOV-3 cells were plated at a density of 5,000 cells per well and spheroid allowed to form (72-hours). Cells were then treated with serial compound dilutions and kinetics of spheroid growth were obtained. Microplate Graph shows the individual well Largest Brightfield (BF) Area (µm2) over time. Concentration response curves represent the Largest BF Area (µm2) at 204-hours post-treatment. Data were collected over 240-hour period at 6-hour intervals. Each data point represents mean ±SEM, n=8.

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Figure 9. Guided interface is easy to use for even first-time users.  Automated image acquisition and analysis tools provide a ‘set up and walk away’ experience. View images remotely to monitor experimental progress and analyze in real time for rapid decision-making.