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EMBRYONIC STEM CELLS PROTOCOL6 U; N3 M% b! ~5 \7 }2 ]6 d% M
Allan Bradley's Lab, Baylor College of Medicine, Houston, Texas 胚胎干细胞基本操作
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EMBRYONIC STEM CELLS PROTOCOL8 `$ f5 r5 g7 x' x
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$ P3 B" h _/ { If you are embarking in growing ES cells, be prepared to refeed
( _, b, R3 e! i# N( I& }them DAILY. All procedures should be carried out using sterile 9 ?1 _% B- v" V; t2 s& {
techniques. The growth and maintenance media for ES cells is M15 MEM ! M& p G6 k/ B. J/ J `% E3 D
(no pyruvate, high glucose) 15% FBS, 1X GPS, 1XBME. Handling ES cells: 8 ^& \7 U: U, o
growth, maintenance, passing, freezing and thawing is conducted in a 7 L7 r# L1 d, X4 H6 N' T
manner to protect and maintain the quality of the cells and keep them in ( ^% b3 V5 i+ [7 O) e
a pluripotential state. Serum quality is critical for successful growth 1 A# ?" P( C, i$ O; `" S
of ES cells and especially true for blastocysts. The quality of the
' ^3 P# I2 ?! M' [! Xfeeders is very instrumental. Remember also that in passing, freezing,
1 y* p6 y& k6 y& w v* w" \and electroporating ES cells; it is best that the cells are still at
/ Q+ ?& s2 y+ N* }( m5 q2 _; hexponential growth (80% confluence) for optimal results.
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THAWING (QUICK THAW)
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1. Remove cells from the freezer and quickly thaw in a 37oC waterbath.
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2. Transfer the cell suspension to a sterile 15 ml tube. Add 10 -
- ~- |7 Y$ L2 @7 ^( p" O; F# z D3 I) G12 mls of M15 media to 1 ml of cell suspension.. u6 Q' \( H: U) Q! P2 l% Z
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3. Gently mix and pellet the cells by centrifuging @ 1000 rpm for 7 minutes.3 f6 f' U! O- k
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4. Aspirate off supernatant and resuspend cells into 6 mls of M15,
" }3 N- z: O7 O0 Q& pand plate out cells in a 6-cm feeder plate.
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E- I6 a1 ^8 g2 L; F) j5. Refeed cells daily with fresh M15. Upon 80-85% confluence, cells
" h" Z% {$ _3 ]need to be passage or freeze. (M15 media: DMEM, 15% FBS, 1X GPS, 1XBME)3 _' {5 S$ r1 C; F! A$ T
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4 k" y8 i) y7 P4 }) S2 M' MPASSAGE OF ES CELLS
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ES cells typically should be passaged every 2-4 days (apart from colonies . | g! c8 F. r( T9 {
under selection). If passaging is neglected the cells will differentiate
# `6 d" l& |+ U- J/ u7 D7 f+ Land you will select for variants that might have lost totipotency. Cells
3 O5 E( k4 _) h2 Fmust be fed when media begins to turn orange. Yellow media (acid pH) is
$ @1 s* N) V0 H# M6 ^very bad for ES cells and should be avoided at all costs. If you are 8 Q. u/ A; r4 a$ T/ t) f, V/ W
planning to passage and believe that the cells might turn yellow 4 t1 a* k) o( Y* M
overnight feed last thing in the evening and again the next morning 3 T( Z' H' G. @; }/ K
before passaging. DO NOT PASSAGE CELLS WHEN MEDIA IS YELLOW.
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5 Q7 w6 {: ?+ g! v T/ p1. Check cells under the microscope for 80-85% confluence.
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2. Refeed cells 3 - 4 hours before passing them. (VERY IMPORTANT)
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3. Aspirate media off. Wash one time with PBS. Add 500 祃 of
, ~0 B" }2 {" ~: q, b3 U8 ftrypsin to a 6-cm plate, or 1 - 1.5 ml of trypsin to one 10-cm plate.
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4. Incubate @ 37 oC for 15 minutes./ }& J1 W2 i$ q4 h" b6 B1 [: k
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5. Add media, M15 to inactivate the trypsin. About 2 mls to 1 x
6 ~! a5 b8 a \6-cm dish or 4 - 5 mls to 1 x 10-cm dish.
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6. With a transfer pipette, pipet up and down several times to 9 X& ?$ @* x& P
separate the cells and break any colonies.
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7. Determine the number of feeder plates you need, depending upon
+ t2 I; @ P1 ]2 u0 X" X3 Z# U7 vthe passage you are doing. Add fresh media, M15 to the feeder plates (to
9 p ]/ M( k: T. O( T1 x 6-cm feeder dish: 6 mls of media; 1 x 10-cm feeder: 12 mls of 3 z6 p K5 u9 h6 o
media). Split ratios for ES cells can vary from 1:1 to 1:10. Do not 7 {4 y% z$ V; a" j* _0 M
exceed 1:10.
# F" I/ j. }3 T3 P* C The area relationships for the various dishes are as follows:# J8 F( ?& F0 z! G. K
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Dish Media Trypsin Area (cm2) Diameter (actual)
% d2 S+ L0 }1 c9 N8 x6 m6 J(6 mm) 96 well 200 祃/well 30-50 祃 0.3 0.6 cm8 l* K/ J4 h: h/ [
(10 mm) 24 well 1.0 ml 200 祃 1.8 1.5 cm
" Z- j. b) Z' X(30 mm) 6-well plate 3-4 mls 400 祃 9.6 3.5 cm* F* u1 H* y, e6 _! ]8 q$ d
(6-cm) dish 6 mls 0.6 ml 21.2 5.2 cm, v/ A i- |0 b
(10-cm) dish 12 mls 1.5 ml 60 8.7 cm- E, o' U K3 n
(15-cm) dish 30 mls 2.5 ml 154 14 cm
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Some typical passaging ratios:
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; B- E7 l" ]- @1:6 = 1 x 60 mm to 2 x 90 mm
) @; \* f, }) O: y1:6 = 1 x 30 mm to 1 x 90 mm" ]' {: m* H/ U/ @# G
1:4 = 1 x 30 mm to 2 x 60 mm + k7 y7 J, Y. u1 y: n8 x
1:5 = 1 x 24 well to 1 x 30 mm (6-well plate) " w" W1 M1 Z' @& y K% K
1:6 = 1 x 96 well to 1 x 24 well! H/ p4 d* P; n" ^( a$ H1 Y
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" k& \$ @* r$ F6 o+ q; ~5 ~8. Aliquot the cell suspension into plates in the volume specified 0 J) y. l0 g2 X5 D# M! l2 k( y' d1 @
for each plate. Remember to use Feeder plates. Always check the feeders 4 G$ M/ y0 h$ o& H& b( z
before using them. They should be confluent, no gaps, not contaminated + K! M0 C9 }: C3 ]0 ]
and not dividing. Use feeders that are older, (1-2 weeks old), the
) f: o# j. [9 N; e$ Hadvantages are many: any contamination is assessed, also any dividing ! ~4 p( g) S/ M/ j8 ~
run-away cells can be detected, and the passage will be earlier. Also, 0 i% j/ T8 H, I$ z+ o* h
older feeders have settled nicely and flattened.
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9. Mix to have a uniform cell distribution. Return plates to the TC 2 a, e/ \9 S* W" a3 R
37 oC incubator.
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% P# V3 P- T: }- N; ]FREEZING ES CELLS (SLOW FREEZE)
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1. Check cells under the microscope for 80-85% confluence.
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! K' O3 Y: t. V/ w2. Refeed cells 3 - 4 hours before passing them.
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3. Aspirate media off. Wash one time with PBS. Add 500 祃 of - h! m/ o# Q# q9 m, Z) A3 Y
trypsin to a 6-cm plate, or 1 - 1.5 ml of trypsin to one 10-cm plate.0 j6 k4 u% U( ]) J/ O( U/ k
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4. Incubate @ 37oC for 15 minutes.
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5. Add media, M15 (M15 media: DMEM, 15% FBS, 1XGPS, 1XBME) to % _# j% L& K3 y: w- B h
inactivate the trypsin. About 2 mls to 1 x 6-cm dish or 4 - 5 mls to 1 x
9 | d/ c, g) X) V: n( g10-cm dish.
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" n: m4 I' U9 U: d6. With a transfer pipette, pipet up and down several times to $ }0 V' i! K/ I' D! `) N
separate the cells and break any colonies. Collect cell suspension in a 0 A2 w, |/ W. T+ I/ N0 `, ~
centrifuge tube and add more media to count.
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! \8 f+ E8 w7 a4 E1 p* S8 t( r5 S7. Count a 200 祃 aliquot and calculate the total cell number. From ' e, T2 X- g7 M3 c3 z$ F
this, calculate the volume of media required to give a final density of
! C& R9 e9 A2 h9 v) t. M9 Z3.0 x 107 cells/ml. This density is very important, do not deviate from
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- [$ }: ^+ I3 u6 S8. Pellet cells by centrifuging @ 1000 rpm for 7 minutes.1 }7 p8 `3 }+ J/ l- }
, H# ^8 o+ \1 w1 S9. Aspirate off supernatant and resuspend the pellet in 1/2 the 2 A3 h! }, [0 L' w# t) ~
volume calculated in Step 7 above, with M15 media.
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, ]9 {4 S6 t6 _3 r V2 k' r10. Add 1/2 the volume with 2X Freezing Media (60% DMEM, 20% FBS, 20% 0 v( J$ |2 |+ t a% \: s- J& f
DMSO, freshly prepared); the cell suspension is diluted as a result: 10% " }4 s* j, `3 e! ]; B& E$ ^
DMSO is the final conc. Add the freezing media dropwise, mixing well 0 `2 m- X6 U2 S% P
after each addition.
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1 o; G8 H9 p0 S% Z3 D6 M; ]11. Aliquot the suspension into sterile freezing vials, pre-labeled 7 d. `% a; Q# l
with the cell type (AB2.2, AB1, etc.), clone number, passage number and # |6 _8 |7 v3 J5 G3 C* y
date. A typical aliquot would have 0.3 ml - 0.4 ml of ES cells (@ a
% W" Z# f f) [- i J0 q9 l/ adensity = 3.0 x 107 cells/ml) this is about 9 x 106 cells - 12 x 106
. f( o [+ Y' L& P: r& dcells total/vial.4 T; S5 P4 y' f: i" }0 R t9 t8 E
) I- p+ e/ N% k; s2 w1 o12. Place vials into a freezing container. It is critical that the
; x1 N/ u# }. L0 N3 Qfreezing rate is not faster than 1/minute. Do not use any untested : m/ Y6 U/ Q/ N! h0 N
styrofoam container since freezing rates vary greatly and this will most 2 {, {+ A' P# g0 b( {. o, E
likely result in death of most of your cells. Freeze cells overnight at . s0 a) q3 p* U6 E: o
-70oC, (24 hours).
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13. Next day, transfer cells to the Liquid Nitrogen freezer (or
( t$ V/ p- N- I, K% ~. | F" ^-135oC freezer). |
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