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Production of Completely ES Cell-Derived Fetuses by Aggragation with Tetraploid Embryos Nagy Lab,Mount Sinai Hospital ) K8 A( H! K f9 I
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, p% M2 x: n' m7 i0 vThe technique described here is a slight modification (March 1997) of methods presented in: Nagy A., J. Rossant. 1993. Production of completely ES cell-derived fetuses. In : Gene Targeting: A Practical Approach. (ed. A. Joyner). IRL Press at Oxford University Press.
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s1 \6 M) F( p% Q x/ E4 v fRecovery of 2-cell stage embryos is very similar to that of the 8-cell stage embryos and it must be done on the day 1.5 dpc. It is safer to collect late 2-cells stage embryos to avoid the so-called two-cell-stage block. The presence of 10-15% 3-4-cell stage embryos among 2-cell indicates the appropriate timing. The flushing 46 + hours after hCG injection is recommended. . Z/ i4 t {$ \1 l! s( R
1 g, W4 [! y7 ~, g" c! ~* D9 x lMaterials:
, N6 w0 v5 R' SDissecting microscope;
! D8 \7 ~8 J8 K) q) g$ |, QFlushing needle (The sharp tip of No. 30 G 1/2 needle is cut off and then rounded using sharpening stone);
2 i: r) P9 L' c/ V: x0 |. ]; i1 ml syringe;
" K% M( P8 Y4 w7 O3 r7 z4 p) z) o5 PDissecting instruments (fine-pointed scissors, fine forceps);
5 }- y" q& p! o# [No. 5 forceps (Dumont);
" B* Z2 S6 ~- I5 _9 b7 C3 vMouth pipette (aspirator mouth piece, latex tubing, blue tip) alternatively: ' ^. }. ]% q8 {
Finger controlled pipette (Manostat tubing, yellow tip, scalpel blade); 7 [( A! S2 h% q
9'' Pasteur pipettes; " U+ b+ z! X5 U7 r/ C# `7 N8 P7 q6 Q
70% Ethanol;
: I. E/ w& z o# P4 RAlcohol burner or Bunsen burner;
% W# Y- n" n" S8 a8 @Sterile plastic Petri dishes (100 x 15 mm); 1 ^4 M8 G0 H* K* @, U
Sterile Organ Culture dishes (60 x 15 mm, Falcon, 3037);
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Method:
" L8 I8 ^9 c; h' \& U, i! G7 uThe oviducts with the upper part of the uterus attached are removed from 2.5 days post-coitum (dpc) superovulated CD-1 females and placed into a drop of
( u/ q2 N( X, V7 d/ q* h2 |Under dissecting microscope the oviducts are flushed by inserting the flushing needle attached to a 1 ml syringe of 8 b5 A k+ f, `0 M+ U1 @
The embryos are collected using mouth or finger controlled pipette and washed through several drops of
8 {6 g! B; `/ ~5 J3 X" {The embryos are washed in ; E( D; c4 D" m" i
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Fusion of the blastomeres of 2-cell stage embryos occurs when a square pulse is applied perpendicular to the plane of contact of the two cells. The pulse parameters varry depending on the electrodes and pulse generator. We use Cell-fusion instrument, # [, a5 v8 H) i4 {! c, l& O
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Materials: ; Z0 x) O: T$ b9 l K
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two dissecting microscopes; " T' _5 |) c+ v: R
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0.3 M Mannitol (Sigma M4125) (dissolved in ultra pure water with added 0.3% BSA (Sigma A4378) and filtered through 0.22micron Millipore filter, stored in aliquots at -20 C); : r) t+ U8 S. p, U
tissue culture dish with 4 y0 K4 i: k. }. @& N
mouth or finger controlled pipette;
9 B4 b. c5 C$ @ x( R& MMethod:
& t1 ?8 d& i. u5 d& C1. Turn on the CF-150B pulse generator. Make sure you set the switch on the backside of the mashine to
. j- s' ]8 E9 b( I( n"Non-electrolyte".Do NOT use the "Normal" position!
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2. Put a 100 mm Petri dish containing the electrode - chamber under a dissecting microscope, connect the cables to the pulse generator and adjust all parameters by setting the <mode> button to Voltage and turning the appropriate dial on the left side, then setting the <mode> to duration and turning the appropriate dial until the desired number is displayed.
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Typical settings for GSS-250: 40 V, 30 microsec, 2 repeats, for GSS-500: 75 V, 35 microsec and for GSS-1000: 137 V, 26 microsec.The parameters however could depend on local conditions and embryos used. They should be optimized empirically.
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. I4 ~+ p+ O" m: f: ]+ c7 ?4 tOn the front panel, in the lower right corner, you have a two buttons and a dial. Push the first button, which is called "HF SINUS" - "ENABLE" until the diod lits up and it is so enabled. Push the button on the other side of the dial until also this is enabled. This button is called "ATTENUATOR" - "AMP/10. Now turn the dial until 1.0-2.0 is shown on the display. Which strength you should choose depends on how quickly you can work, and the sensitivity of your embryos. The higher this value, the faster will the embryos align in the right position, but a too high value for more then 20-30 seconds seconds will harm them. This you should optimize empirically.
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' n; n6 l5 y$ q; d& h( J8 V P/ l3. Place two large drops of
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; e" s1 p" n0 v4. Place 50 - 100 embryos in one drop of
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Pass the group of 20-25 embryos through the drop of mannitol and place them between electrodes one by one, leaving distance between them. Most embryos will properly orient. Pick up those which are not oriented and place them right manually. # Z2 y# f% m+ R
When all the embryos are properly oriented push the trigger to apply the pulse. : d- h( S& R7 w% l8 f! p/ F1 v
Transfer the embryos into the new , L8 n, ]# ~1 h% Y' l8 f" g
Repeat steps 5-7 with new groups of embryos. 0 I: u" k+ P5 e" X: ]- w
Rinse embryos through 7 s# J d: [ Y) q* f" `
Repeat steps 4-9 with the rest of embryos. 0 h( N9 L# {0 K4 j9 h% X0 O
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Fusion of blastomeres should be completed in 20-40 minutes. Since embryos are recovered at the late 2-cell stage, the second mitotic division is expected soon after fusion. Therefore it is important to select for the perfectly fused tetraploid embryos 20 - 60 min after application of the pulse. It is safest to transfer the tetraploids into a new culture dish or new microdrop. Under optimal conditions the rate of unfused and lysed embryos does not exceed 5 %. The tetraploid embryos are cultured overnight. ?5 N- a+ M3 @: i) D* b# n
/ F/ {% k6 a* K, U/ x. V+ B4 FMajority of them form the 2-cell stage. By noon of the next day most of them have cleaved once more and reached the 4-cell stage. This stage is equivalent to the diploid 8-cell stage and should be used for aggregation with ES-cells, tetraploid embryos start compacting at this stage. Some embryos are still at the 2-cell stage the next stage, they are delayed. Depending on the total number of 4-cell stage embryos and number of recipients, 2-cell stage might still be used for aggregations but with limited success.
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2 I/ a0 r! S2 t. D5 L, gMaterials: c$ J1 |( x$ w) x0 z$ g: p# d
Dissecting microscope; ) r, F$ d, S9 B& C+ l3 r
Sterile tissue culture dishes (Easy Grip 35 x 10 mm, Falcon 3001-3); . ^ k* G: d" z
1 ml syringe with 26 G 1/2 needle of 5 I. I/ Z0 A2 r, |4 `
light mineral oil (EMBRYO TESTED) (e.g. Sigma: M8410); ! ]7 V; v; G1 t9 E4 r+ F9 |
aggregation (darning) needle ( ( E( P5 I5 w6 H& \
70% ethanol. + S. m& c7 B9 m, Y$ q* w
Method:
4 o& D4 S% P3 F6 d% q+ o* |* x) RPlace few rows of
7 h1 b- Y/ | k5 C: m+ f! J( YSterilize aggregation needle by washing in ethanol. * W U# E2 A# g2 k4 j P9 b3 y
Make six or more depressions in each microdrop (leaving a few drops intact for ES cell selection.
" C# q* j5 J/ s+ G8 E) j- Q, }& g2 uKeep the plate at 37o C, 5% CO2. ' t5 j# l4 y# h* n7 B3 O
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Materials: 8 V% T# M& i) u9 ~& W8 m
Dissecting microscope; 3 N; y' Y' V% o* V/ K
Acid Tyrode's (e.g. Sigma: T1788);
L; S' D2 H. E. G8 y5 [Sterile plastic Petri dishes (100 x 15 mm); % X6 o9 z6 i: K" z7 u
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9'' Pasteur pipettes;
# s$ g7 Z+ e4 h7 _, B1 OMouth or Finger controlled pipette. 8 V- n9 ^5 ~+ G5 s9 |" f" r
Method:
6 V7 k# a; o$ }; L$ `, TPlace a few drops of 7 u6 x2 M# ]/ F! Y) v+ p5 f
Wash the group of embryos with as little medium as possible through one drop of Acid Tyrode's, then transfer to a fresh drop of the same solution.
) I& s- q. p/ @$ [: [" j8 HObserve zona dissolution.
2 y- Q2 V' {+ e; R. YImmediately transfer the embryos into a drop of ! ]7 _- a/ l( D1 k) `& S
Wash the embryos at least twice in
: W8 S: R- q2 b/ @. ?, dTransfer embryos into aggregation plate by placing them one by one beside each depression as well as inside each depression (two embryos will be used to form "sandwich" with ES-cells clump). It is possible to use only one tetraploid embryo to aggregate with ES-cells but such aggregates will need an additional night of culture to form blastocysts.
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Materials: 0 v3 k2 Q) g2 u4 [: ~$ Q
Dissecting microscope;
6 e; B& V/ A, Y1 ?& k& jPrepared aggregation plate with depressions and embryos with removed zona;
2 [: d8 w5 |, n* W: S, F6 g' Z/ eTrypsinized ES-cells;
$ |) [; M. ]6 Z( z3 xMouth or Finger controlled pipette;
2 i* O6 r+ ~ Q8 @; J9'' Pasteur pipette.
H1 Q% p' n+ m& e5 \. hMethod:
; z4 B9 L3 k& v X& v' h7 }Choose clumps of loosely connected ES cells and transfer them into microdrops (not containing embryos) of aggregation plate for final selection.
n, D+ p0 W4 a; P8 T$ VSelect few clumps of ES cells (8 -15 cells each); place each in a depression next to an embryo.
; B1 z; O! R! U5 u% J- {* X9 cPick up the corresponding embryo outside the depression and place it on the free side of the ES cell clump, forming "sandwich".
; I+ y% _4 l; X8 C; JAssemble all aggregates in this manner, check the plate, and culture overnight at 37o C, 5% CO2 . + x' w; y) k2 Z$ _$ c" \- ^
The following afternoon, the majority of aggregates should have formed blastocysts. At this time they should be transferred into the uterus : `. B& P& T& L9 H8 W8 F9 d; A
]5 }! k7 Y$ v" h# sof 2.5 dpc pseudopregnant females. We transfer a maximum of 8-10 embryos into each uterine horn of a pseudopregnant recipient. Mature CD-1 females are used as pseudopregnant foster mothers and ordered at a weight of 30+ g.
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9 y) o6 C/ d( `0 M3 z9 b* A/ GIn the event of a recipient shortage, it is possible:
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9 | t! L( Q- f4 E0 L to transfer up to 24-26 embryos per recipient; - Z+ l% P/ ?7 ?% | s- z
to culture the aggregates (preferably morulae) for one more day and transfer them into 2.5 day pseudopregnant females; ' A6 U v+ }" i/ H% W
to use 3.5 day pseudopregnant females.
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, Q3 i/ f, F0 ZMaterials: . l6 O$ L* S& Y" z5 `$ j
2.5 dpc pseudopregnant females;
; }# B2 U6 s0 L8 H# W: B( ^3 x. xInstruments:
4 F9 D5 Q7 V" `. G/ v SScissors;
! L, R2 y {% aSemken forceps (straight or curved with serrated tips);
0 t- o1 `2 s. V8 }# F$ @Forceps with 1 x 2 teeth;
. w; i- z% k5 n @- V; b/ D2 K* cDumont ss/mc or No. 5 forceps;
2 \0 p8 |4 e9 Q" dSerrefine (e.g. Fine Scientific Tools: 18050-28 or 8051-28);
( t+ N4 \, J- f. _26G1/2 or 30G1/2 needle; $ o' G' _6 g( P- Z& A, Q) z3 v1 O
Autoclip applier (Clay Adams B-D 763007); . q8 |; @; B! j& O
Autoclips (Clay Adams B-D 7631);
$ o9 p, o6 O6 i/ ?+ o6 z6 a: EMouth controlled pipette;
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2.5% Avertin:
, l# C ?3 s) W) o/ \2,2,2,-Tribromethanol 2.5 g (Morre-Tec Industries #1693);
, L; z* {! A7 h& c: w8 h' cTert-amyl alcohol 5.0 ml (Fisher: A-730-1). * }5 T' S# @5 Z- C" _
Dissolve tribromethanol in Tert-amyl alcohol, then add to 200 ml distilled water. Place on a magnetic stirrer until solution is in one phase. Store in brown bottle and keep refrigerated until use. Should be warmed and shaken before use. Dosage is 0.2 ml/10 g body weight. q: `4 H# p. \- C1 d! \
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Method:
9 N3 \' r1 ^7 T7 }' G# q" }The embryo transfer procedure is described in details in many publications, such as the following: # W. C: ?# Z* M: p: X
4 ]' ^" d, m4 H# M6 }1. Hogan, B., F. Constantini, E. Lacy. 1986. Manipulating the Mouse Embryo. Cold Spring Harbor, New York. 6 g7 C0 P5 w' K1 T* `7 T
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2. Bradley, A. 1987. Production and analysis of chimeric mice in Teratocarcinomas and Embryonic Stem cells: a Practical Approach (ed. E.J.Robertson) IRL Press, Oxford, Washington, D.C. ( r: o6 k3 Q4 w* i0 z0 ~
5 n' ^) T6 O0 ^) x3. Pappaioannou, V., R. Johnson. 1993. Production of chimeras and genetically defined offspring from targeted ES cells. In Gene Targeting: A Practical Approach (ed. A.Joyner) IRL Press at Oxford University Press 8 t3 D% A) I9 C* u$ c# a7 Q
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4. Stewart C.L. 1993. Production of Chimeras between Embryonic Stem Cells and Embryos. in Methods in Enzymology. vol.225. Academic Press Inc. . O @4 I- W* B. k! {
/ a: Q0 d+ A. K/ o4 URecovery of 2-cell stage embryos
, y2 r3 Z [2 l( P/ `& ?Production of tetraploid embryos
1 D/ n* i) j- s F. R5 j# P/ \Preparation of aggregation plate ! X6 X# \+ I, c; _0 W; U( t
Removal of Zona Pellucida
! [8 y* S6 g% [4 `ES cells/ tetraploid embryo "SANDWICH" aggregation 7 U& v/ U0 ^5 R) _* f3 ~* a5 ?1 p
Transfer of embryosRecovery of 2-cell stage embryos M2 and KSOM media. M2. M2 into the infundibulum. M2 medium to remove any debris. KSOM medium and cultured in organ culture dish in KSOM at 37o C, 5% CO2. Production of tetraploid embryos CF-150B available from BLS Ltd., Hungary with following parameters (for non-electrolyte fusion): , \3 T- F9 U7 K2 K$ v. S# y2 A" g
$ a% @+ J+ `2 |( ]6 R& l. ~% sVoltage -30 V; Duration - 35 microsec; Number of pulses - 2 ;
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1 r- s. D& c$ G4 i( G1 c( vAdjustable AC field is applied to allow the correct orientation of embryos (enable, 1 or 2 V on the display). Too high an AC field can cause lysis. CF-150B cell-fusion instrument with an electrode chamber ( The company manufacture three kinds of electrode chambers: GSS-250, GSS-500 or GSS-1000, which differ in the gap distance. All work well for tetraploid production. The choice is based on personal preference.)M2 and KSOM media; KSOM microdrops covered with oil (Sigma M8410); M2 medium and two drops of mannitol solution in the second 100 mm Petri dish under other dissecting microscope. Place large drop of mannitol over electrodes. M2. The number of embryos depends on the speed since the drop of mannitol over the electrode chamber can not be used for longer that 10 - 15 minutes (it evaporates and the fusion becomes less efficient) and should be changed to fresh one after that time. M2 drop. KSOM drops and place them into microdrops under the oil in the incubator. Preparation of aggregation plate KSOM medium; DN-09, BLS Ltd., Hungary,) KSOM microdrops (roughly 3 mm in diameter) into tissue culture dish using syringe (e.g. 3 drops in the first and fourth and 4-5 in the second and third rows), cover with oil. Removal of Zona Pellucida M2 and KSOM medium in 1 ml syringes; M2, KSOM and acid Tyrode's in the Petri dish. M2 medium as soon as the dissolution is completed. KSOM drops before putting them in the aggregation plate. Prepare ES-cells for aggregation by that time. ES cells/ tetraploid embryo "SANDWICH" aggregation Transfer of embryos M2 medium; |
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发表于 2009-3-3 14:21
