Summary

The use of SC1 (Pluripotin) to Support mESC Self-renewal in the Absence of LIF

Published: November 18, 2009
doi:

Summary

SC1 functions through dual inhibition of Ras- GAP and ERK1. We tested the function of SC1 in supporting mouse ES cell self-renewal in the absence of LIF and showed that SC1 is able to maintain self-renewal of mouse ES cell cultures.

Abstract

Mouse embryonic stem (ES) cells are conventionally cultured with Leukemia Inhibitory Factor (LIF) to maintain self-renewal.1 However, LIF is expensive and activation of the LIF/JAK/STAT3 pathway is not absolutely required to maintain the self-renewal state.2 The SC1 small molecule may be an economical alternative to LIF. SC1 functions through dual inhibition of Ras-GAP and ERK1.3 Illustration of its mechanism of action makes it a useful tool to study the fundamental molecular mechanism of self-renewal. Here we demonstrate the procedure for culturing mouse ES cells in the presence of SC1 and show that they are able to maintain self-renewal in the absence of LIF. Cells cultured with SC1 showed similar morphology compared to cells maintained with LIF. Both exhibited typical mouse ES morphology after five passages. Expression of typical pluripotency markers (Oct4, Sox2, Nanog, and SSEA1) was observed after five passages in the presence of SC1. Furthermore, SC1 caused no overt toxicity on mouse ES cells.

Protocol

1. Preparation of MEF feeder plates

  1. One day before culturing ES cells, thaw one vial of irradiated E14.5 CF-1 MEF feeder cells (see our procedure on how to thaw ES cells).
  2. Plate the MEF feeder cells at a density of 10,000 cells/well in a 12 well plate. Incubate the cells overnight at 37°C and 5% CO2. MEF cell media: DMEM supplemented with 10% ES-PBS, 1X glutamine and 1X non-essential amino acids.

2. Maintenance of Self-Renewal of Mouse ES Cells

  1. Detach the ES cells using trypsin. Seed the cells at a density of 50,000 cells/well on the previously prepared MEF feeder plates in growth media (Knockout MEM supplemented with 15% KSR, 4 mM L-glutamine, 0.1 mM non-essential amino acids and 1X BME) supplemented with SC1 at the desired concentration (we used 100 nM, 300 nM, and 1 μM). We also added a positive control well that was supplemented with 1000 μ/ml of LIF. Incubate the cells overnight at 37°C and 5% CO2.
  2. Culture the cells at 37°C and 5% CO2 for 3-4 days in each passage. Refresh media every 48 hours.
  3. Passage cells 1:10 to 1:15 with trypsin to maintain a similar density as the initial seeding density. After 5 passages, the cells can be examined for the expression of typical pluripotency markers using immunocytochemistry.

3. Immunocytochemical Examination of Pluripotency Markers

  1. Wash the cells gently three times with PBS.
  2. Fix the cells with 500 μl of fixative for 20 minutes at room temperature.
  3. Wash the cells gently three times with PBS.
  4. Block non-specific binding with 500 μl blocking buffer for one hour at room temperature.
  5. Incubate the cells with 250 μl of the specific primary antibody (we used Nanog, Sox2, SSEA1, and Oct4 at the following dilutions: 1:500, 1:2000, 1:500, and 1:500)
  6. Wash the cells gently three times with PBS.
  7. Incubate the cells with 250 μl of secondary antibody for two hours at room temperature, keeping away from light (we used donkey anti-mouse conjugated with Alexa Fluor® 555 at 1:2000 and donkey anti-rabbit conjugated with Alexa Fluor® 488 at 1:2000).
  8. Wash the cells gently three times with PBS.
  9. Add DAPI (final concentration 1 μg/ml) to the last wash and incubate 5 minutes to visualize nuclei.
  10. Analyze the cells under a fluorescent microscope.

4. Representative Results:

1. Morphology results:

Mouse ES cells (ESC R1) were grown on MEF feeder cells in the presence of either LIF or SC1 to sustain self-renewal at an undifferentiated state. After the second passage, differentiation could be observed in cells without LIF or SC1 (negative control) and after 5 passages essentially no undifferentiated colonies were observed. LIF (positive control) treated colonies remained in an undifferentiated state throughout the 5 cell passages. Cells treated with SC1 at concentrations of 300 nM or 100 nM also remained undifferentiated after 5 passages, however, the cells treated with 1 μM SC1 experienced cell death after the fourth passage. (fig 2 of app note) Table 1 summarizes the morphological observations.

2. Expression of Pluripotency Markers

Mouse ES cells maintained for 5 passages were fixed and examined by immunocytochemistry for SSEA1, Oct4, Nanog and Sox2. Marker expression was similar to cells maintained in LIF. (fig 3 and 4 of app note)

Figure 1
Figure 1: Morphology comparison of cells maintained in LIF or SC1. No difference in morphology was observed.

Figure 2 and 3
Figure 2 and Figure 3: Nanog, SSEA1, Sox2, and Oct4 staining of ES cells maintained with SC1 or LIF (fig 4 of app note). Cells maintained in SC1 show similar pluripotency marker expression to cells maintained in LIF.

Table 1

  Negative Control LIF Positive Control SC1 1uM SC1 300 nM SC1 100 nM
1st Passage Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology
2nd Passage Some differentiated morphology Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology
3rd Passage Majority of cells differentiated Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology Normal ES cell morphology
4th Passage No ESC colonies Normal ES cell morphology Cell death observed Normal ES cell morphology Normal ES cell morphology
5th Passage differentiated Normal ES cell morphology Cell death observed Normal ES cell morphology Normal ES cell morphology

Discussion

The small molecule SC1 can be used to maintain self-renewal with an undifferentiated state in mouse ES cells. Before using on an untested cell line, however, it should be titrated to determine the optimal concentration. For example, we tested three concentrations on the mouse ES cell line ESC R1. 100 nM and 300 nM concentrations were able to sustain mouse ES cells, however, a 1 μM concentration was toxic.

SC1 can also be used under feeder-free conditions.

Divulgazioni

The authors have nothing to disclose.

Acknowledgements

The authors wish to thank Dr. Sheng Ding of The Scripps Research Institute and Dr. Hongkui Deng of Peking University for their assistance and direction.

Materials

Material Name Tipo Company Catalogue Number Comment
SC1   Stemgent 04-0011  
LIF   Millipore ESG1107  
SSEA-1 antibody   Santa Cruz 21702  
Nanog antibody   Abcam ab21603  
Sox2 antibody   Chemicon Ab5603  
Oct4 antibody   Santa Cruz SC-5279  

Riferimenti

  1. Williams, R. L., Hilton, D. J., Pease, S., Willson, T. A., Stewart, C. L., Gearing, D. P., Wagner, E. F., Metcalf, D., Nicola, N. A., Gough, N. M. Myeloid leukaemia inhibitory factor maintains the developmental potential of embryonic stem cells. Nature. 336, 684-687 (1988).
  2. Ying, Q. L., Wray, J., Nichols, J., Batlle-Morera, L., Doble, B., Woodgett, J., Cohen, P., Smith, A. The ground state of embryonic stem cell self-renewal. Nature. 453, 519-523 (2008).
  3. Chen, S., Do, J. T., Zhang, Q., Yao, S., Yan, F., Peters, E. C., Scholer, H. R., Schultz, P. G., Ding, S. Self-renewal of embryonic stem cells by a small molecule. Proc. Natl. Acat. Sci. USA. 103, 17266-17271 (2006).

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Citazione di questo articolo
Xiong, W., Gao, Y., Cheng, X., Martin, C., Wu, D., Yao, S., Kim, M., Liu, Y. The use of SC1 (Pluripotin) to Support mESC Self-renewal in the Absence of LIF. J. Vis. Exp. (33), e1550, doi:10.3791/1550 (2009).

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