Feeder-Free Adaptation, Culture and Passaging of Human IPS Cells using Complete KnockOut Serum Replacement Feeder-Free Medium

Note: To maintain sterile culture conditions, all of the procedures in this protocol are carried out using sterile laboratory practices and conducted under a laminar flow hood.

Prior to starting, ensure that any media is equilibrated to 37°C and appropriately gassed.

Preparing Geltrex-coated Culture Dishes

Note: see appendix for the use of CELLstart coated culture dishes

1. Thaw one tube of Geltrex (1 mL) slowly at 2-8°C and dilute 1:100 it in 99 mL of Knockout D-MEM/F-12. Mix the solution gently.
   
   Note: Some iPS cell lines may require a different Geltrex dilution for optimal growth. See appendix for alternative dilutions.
2. Cover the whole surface of each culture dish with the Geltrex solution (1 mL for a 35-mm dish, 1.5 mL for a 60-mm dish).
3. Seal each dish with Parafilm to prevent drying and incubate the dishes for 1 hour at 37°C.
   
   Note: At this point you may store the Geltrex-coated culture dishes at 4°C for up to 1 month. Seal each dish with Parafilm to prevent the Geltrex from drying out.
4. Prior to using, transfer the Geltrex-coated dishes to a laminar flow hood and allow them to equilibrate to room temperature (about 1 hour).

Preparing Complete KnockOut SR Feeder-Free Medium

1. To prepare 1 mL of 10 μg/mL Basic FGF solution, aseptically mix the components listed below. Aliquot the solution and store at -20°C for up to 6 months.
   
   

   Basic FGF	10 μg
   D-PBS	990 μL
   10% BSA	10 μL

   
   
   Note: BSA can be substituted with HSA or Knockout SR at the same concentration.
2. To prepare 50 mL of 2 mg/mL Dispase solution, aseptically mix the components listed below. Filter sterilize the solution and store at 4°C for up to 2 weeks.
   
   

   Dispase	100 mg
   D-PBS	50 mL

3. To prepare 100 mL of complete KnockOut SR Feeder-Free (KSR-FF) medium aseptically combine the components listed in the table below.
   
   

   Component	Stock Concentration	Final Concentration	Volume
   Knockout DMEM/F12 (Cat. no. 12660-012)	–	1X	76.8 mL
   GlutaMAX -I (Cat. No. 35050-061)	200 mM	2 mM	1 mL
   KnockOut SR (Cat. no. 10828-028)	–	20%	20 mL
   KnockOut SR-GFC (Cat. no. A10580-01)	50X	1X	2 mL
   bFGF (Cat. no. PHG0024)	10 μg/mL	20 ng/mL	200 μL

   You may store the KSR-FF medium at 2-8°C for up to one week.
4. Just before pre-equilibrating the complete medium to temperature and gases, aseptically add the required volume of 2 mercaptoethanol (55 mM stock concentration) for a 0.1 mM final concentration. For example, to prepare 100 mL of KSR-FF medium add 182 μL of 55 mM 2-mercaptoethanol (1:550 dilution) Alternatively, the 2-mercaptoethanol may be added to the 1X completed medium and stored at 2-8°C for up to one week.

Adapting iPSCs to KSR-FF Medium

1. Prior to starting, pre-equilibrate your Geltrex coated dishes to room temperature in the hood.
2. Culture the iPSCs on MEF feeder cells until they are 70-80% confluent. Please refer to the GIBCO Mouse Embryonic Fibroblast handbook for MEF-based culture protocols.
3. Pre-warm the required volume of Dispase in a 37 °C water bath. Refer to Table 1 below for details on the volumes required.
4. Pre-equilibrate the required volume of KSR-FF in a 37°C water bath for15 min. Refer to Table 1 below for details on the volumes required.
5. Aspirate the medium from the culture dishes, and add an appropriate amount of Dispase solution. Incubate the dishes at 37°C for 3-5 minutes.
6. Aspirate the Dispase solution from each culture vessel and wash off the MEF feeder cells gently with D-PBS (2 to 3 times).
7. Add an appropriate amount of complete KnockOut SR medium to each culture vessel. Use a cell scraper or a 5 mL pipette to gently scrape the cells off the surface of culture vessel.
   
   Note: see appendix for alternative adaptation protocols for hard to adapt iPS cell lines,
8. Collect the cell suspension from each culture dish into separate 15 mL conical tubes. Rinse each culture vessel with an appropriate amount of complete KnockOut SR medium, and add the D-PBS rinse medium into the 15 mL conical tubes containing the cell suspension. Be cautious not to break the cell clumps into single cells
9. Centrifuge the 15 mL conical tubes at 200 x g for 5 minutes to pellet the iPSCs.
10. Aspirate the supernatant from the iPSC pellet. Resuspend the pellet in an appropriate amount of KSR-FF medium according to the split ratio (Table 1). Do not break the cell clumps to a smaller size, because the smaller clumps do not attach well to the surface.
    
    Note: We recommend a split ratio of 1:2 for the first 3 passages after the iPSCs have been passaged directly from the iPSC MEF Culture Medium to KSR-FF medium. Normally, a split ratio between 1:3 and 1:5 is appropriate, but passaging at 1:2 ensures the higher density of cells needed when adapting into a feeder-free culture.
11. Prior to plating the iPSCs on Geltrex coated dishes, aspirate residual Geltrex solution from the pre-coated dish, and slowly add an appropriate amount of cell suspension to each culture dish. Note: do not rinse dishes prior to plating.
12. Move the culture dish back and forth and side to side several times to disperse the cells across the surface of the dish. Gently place the culture dish in a 37°C incubator with a humidified atmosphere of 4 to 6% CO₂ in air. Replace the spent medium with KSR-FF every day.

Passaging human iPS cells using KSR-FF

13. Observe the human iPSCs growing in complete KSR-FF under the microscope to confirm that the cells are 70-80% confluent and ready to be subcultured. Refer to Figure 1.
    
    Note: If colonies become too dense or too large, increased differentiation occurs.
14. Cut out and remove any differentiated iPSC colonies prior to passaging the culture.
15. Pre-warm the required volume of Dispase in a 37 °C water bath. Refer to Table 1 below for details on the volumes required.
16. Pre-equilibrate the required volume of KSR-FF in a 37°C water bath for15 min. Refer to Table 1 below for details on the volumes required.
17. Aspirate the spent medium from the culture vessel using a pipette, and rinse the cells twice with D-PBS.
18. Gently add pre-warmed Dispase solution to the culture vessel (e.g., 1 mL of Dispase solution per 60-mm culture dish). Swirl the culture vessel to coat the entire cell surface.
19. Incubate the culture vessel at 37°C for 3 minutes.
20. Remove the vessel from the incubator, aspirate the Dispase solution, and gently wash the cells with D-PBS.
21. Gently scrape the cells off the surface of the culture dish using a cell scraper, and transfer the cells to a sterile 15mL centrifuge tube.
22. Rinse the culture dish twice with KSR-FF, gently “spraying off” any cells that have not detached. Pool the rinse medium with the cells in the 15mL tube.
23. Centrifuge the tube at 200 x g for 5 minutes at room temperature to pellet the cells.
24. Carefully aspirate the supernatant without disturbing the cell pellet and discard it.
25. Gently flick the tube to fully dislodge the cell pellet from the tube bottom.
26. Gently resuspend the cells in pre-equilibrated KSR-FF using a 5mL serological pipette. Do not triturate. Note: it is critical at the step to gently resuspend the cells without using force to avoid damage.
27. Transfer the cells to a fresh 60-mm Geltrex-coated dish at the desired split ratio and move the culture dish back and forth and side to side several times to disperse the cells across its surface.
28. Place the culture dish in a 37°C incubator with a humidified atmosphere of 4 to 6% CO₂ in air.
29. The next day, gently replace the spent medium with KSR-FF to remove cell debris. Replace the spent medium everyday thereafter. Observe the iPS cells daily and passage them as needed (approximately every 4-5 days). Passaging is recommended when the cells reach 70-80% confluence. For iPS cell cryopreservation and thawing, refer to our protocol titled “Cryopreserving and Recovering of Human iPS Cells using Complete KnockOut Serum Replacement Feeder-Free Medium”.

Expected Results

Figure 1. The phase contrast image below shows iPSCs grown on Geltrex-coated culture dishes using complete KnockOut Serum Replacement Feeder-Free medium. The iPSCs exhibit morphology similar to hESCs, characterized by large nuclei and scant cytoplasm. (40x magnification)

Table 1. Recommended Volumes

Please click here to see the appendix.