Transfection into Mouse/Rat Embryos In Utero by Electroporation

Transfection into embryos: brain, spinal cord, inner ear and etc.

Transfection into Mouse/Rat Embryos In Utero by Electroporation

APPLICATIONS

Gene transfer into embryonic brains using in utero electroporation technique

space Instruments: Fig. A
・ In Vivo Electroporator: NEPA21, CUY21 SC or CUY21 EDIT (Nepa Gene Co., Ltd.)
・ In Vivo Electrode: CUY650P3 or CUY650P5 (Tweezers w/3mm or 5mm diameter platinum disk electrode, Nepa Gene Co., Ltd.)


・Micropipette for DNA injection: Fig. B (make the micropipette by a micropipette puller)

・ Aspirator tube assembly (Drummond)
・ Optical fiber light (Technolight, Kenko, #KTS-100RSV)
・ Sterile gauze (K-Pine, 7.5cm x 7.5cm)
・ Surgical instruments: Fine forceps x 2, Surgery scissors x 2, Ring forceps, Needle holder, Surgical tape
・ Nylon suture (Nesco, #HT1605NA75)
・ Silk suture (D&G, #112451)

Electroporation Setting

(5)Electroporation Setting
Age Electrode
(diameter)
Voltage Pulse
On
Pulse
Off
Number
of Pulses
E12.5 3mm 33V 30msec 970ms 4
E13.5 5mm 30V 50msec 950ms 4
E14.5 5mm 33V 50msec 950ms 4
E15- 5mm 35V 50msec 950ms 4

 

 

Procedure for In Utero Electroporation

(1) A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors.
A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole in the gauze.

(2) After observing the orientation of the embryos through the wall of the uterine horn, a micropipette is inserted into the lateral ventricle, and 2-5μl of plasmid solution is injected by expiratory pressure using the aspirator tube assembly.
When CAG-EGFP is used, a concentration of 1μg/μl is sufficient to visualize the migrating neurons.

(3) After the injection, DNA solution containing 0.01% FastGreen can be seen through the uterine wall (See the picture of  arrow below).

(4) After soaking the uterine horn with PBS, the head of embryo is pinched with a tweezers-type electrode, and electronic pulses are applied with the electroporator.

(5) Electroporation parameters for ICR mouse.(5) Electroporation parameters for ICR mouse.If viability was prioritized over transfection efficiency, the number of pulses can be changed to two.

The actual current is displayed on the screen of the electroporator*. Make sure that the current would become 30-60mA. The current varies according to how the electrode applied or wetness of the uterine horn. Examine the gap between electrodes and the electrode contact areas to fit the current in the appropriate range. If the current is still above the range after the examination, change the voltage setting.
*NEPA21, CUY21 SC or CUY21E (Nepa Gene Co., Ltd.)

GFP Expression

 

in utero electroporation GFP

CAG-EGFP was injected into the both lateral ventricles of E14.5 mouse embryos and electronic pulses (33V, 50msec) were charged four times. 3 days later, the embryos (E17.5) were fixed and the brains were removed and examined under a fluorescence stereomicroscope (Fig. A).
Fluorescence was observed in the lateral region of the hemisphere onto which the anode had been
placed and in the medial region of the opposite hemisphere. And brains were frozen and sliced and the fluorescent image was obtained with a confocal laser microscope (Fig. B). GFP positive cells into which DNA was transferred at the ventricular zone (VZ) migrated to the intermediate zone (IZ) and cortical plate (CP). The arrowheads show the border between VZ and IZ and the border between IZ and CP. Dashed line show the border of tissues.
VZ: Ventricular Zone, IZ: Intermediate Zone, CP: Cortical Plate

Hidenori Tabata and Kazunori Nakajima, Department of Anatomy, Keio University School of Medicine

PUBLICATIONS

Electroporation

Drug Delivery and Transfection

Electro Cell Fusion

Fluorescent Staining

Single-Cell/Micro-Particle Transfer

Cell Freezing

Mechanical Vibration