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The protocols in this section describe the steps involved in differentiating neural stem cells (NSC) to neurons, astrocytes, and oligodendrocyte lineages in vitro. NSCs are self-renewing multipotent stem cells that can be proliferated in vitro in supportive culture systems such as Gibco StemPro NSC SFM and can further be differentiated into downstream lineages. The protocols described are primarily optimized with NSCs derived from human embryonic stem cells (ESC) or induced pluripotent stem cells (iPSC). Some optimization in terms of reagent concentration and duration of in vitro differentiation is expected for NSCs from other species such as rat or mouse, as well as with NSCs derived from patient-specific iPSCs.
Lineage marker | Antigen | Concentration | Subtypes | Reactivity* |
---|---|---|---|---|
NSC | Nestin | 1:1,000 | Rabbit | Hu, Rt, Ms |
Sox2 | 1:200 | Mouse IgG2a | Hu | |
Neuron | Dcx | 1:400 | Rabbit | Hu, Rt, Ms |
MAP2 | 1:200 | Mouse IgG1 | Hu, Rt, Ms | |
Glial | A2B5 | 1:100 | Mouse IgM | Hu, Rt, Ms |
CD44 | 1:50 | Mouse IgG | Hu | |
Oligodendrocyte | GalC | 1:200 | Mouse IgG | Hu, Rt, Ms |
Astrocyte | GFAP | 1:200 | Rabbit | Hu, Rt, Ms |
*Hu = human, Rt = rat, Ms = mouse |
Ex/Em* (color) | Alexa Fluor | 2nd host | 2nd against | Cat. No. | Concentration |
---|---|---|---|---|---|
346/442 (Blue) | 350 | Goat | Mouse IgM | A31552 | 1:1,000 |
Goat | Mouse IgG | A21049 | 1:1,000 | ||
Goat | Rat IgG | A21093 | 1:1,000 | ||
Goat | Rabbit IgG | A21068 | 1:1,000 | ||
Donkey | Goat IgG | A21081 | 1:1,000 | ||
495/519 (Green) | 488 | Goat | Mouse IgM | A21042 | 1:1,000 |
Goat | Mouse IgG | A11029 | 1:1,000 | ||
Goat | Rat IgM | A21212 | 1:1,000 | ||
Goat | Rat IgG | A11006 | 1:1,000 | ||
Goat | Goat IgG | A11034 | 1:1,000 | ||
Donkey | Mouse IgM | A11055 | 1:1,000 | ||
590/617 (Red) | 594 | Goat | Mouse IgM | A21044 | 1:1,000 |
Goat | Mouse IgG | A11029 | 1:1,000 | ||
Goat | Rat IgM | A21213 | 1:1,000 | ||
Goat | Rat IgG | A11007 | 1:1,000 | ||
Goat | Rabbit IgG | A11037 | 1:1,000 | ||
Donkey | Goat IgG | A11058 | 1:1,000 | ||
496, 536, 565/576 (Red) | NA | Goat | Mouse IgM | M31504 | 1:500 |
Goat | Mouse IgG | P852 | 1:1,000 | ||
Goat | Rabbit IgG | P2771MP | 1:1,000 | ||
*Approximate excitation and emission maxima, in nm; NA = not applicable |
StemPro NSC SFM complete medium consists of KnockOut D-MEM/F-12 with Gibco StemPro Neural Supplement, EGF, bFGF, and GlutaMAX-I. Complete medium is stable for 4 weeks when stored in the dark at 2–8°C.
To prepare 100 mL of complete medium:
Component | Final concentration | Amount |
---|---|---|
KnockOut D-MEM/F-12 | 1X | 97 mL |
GlutaMAX-I Supplement | 2 mM | 1 mL |
bFGF (prepared as 100 μg/mL stock) | 20 ng/mL | 20 μL |
EGF (prepared as 100 μg/mL stock) | 20 ng/mL | 20 μL |
StemPro Neural Supplement | 2% | 2 mL |
Note: You may observe a white precipitate when thawing StemPro Neural Supplement; this precipitate will disappear when the supplement is completely thawed or dissolved.
Neural differentiation medium requires supplementation of Neurobasal medium with B-27 Serum-Free Supplement and GlutaMAX-I. Neural differentiation medium is stable for 2 weeks when stored in the dark at 2–8°C.
To prepare 100 mL of neural differentiation medium, aseptically mix the following components. For larger volumes, increase the component amounts proportionally. If desired, add 1 mL of Antibiotic-Antimycotic solution per 100 mL of medium.
Component | Final concentration | Amount |
---|---|---|
Neurobasal Medium | 1X | 97 mL |
B-27 Serum-Free Supplement | 2% | 2 mL |
GlutaMAX-I Supplement | 2 mM | 1 mL |
If faster differentiation is desired, add dibutyryl cAMP (Sigma, Cat. No. 0627) to a final concentration of 0.5 mM at day 7 for a duration of 3 days, as indicated in the differentiation protocols.
Astrocyte differentiation medium requires supplementation of D-MEM with N-2, GlutaMAX-I, and FBS. Astrocyte differentiation medium is stable for 4 weeks when stored in the dark at 2–8°C.
To prepare 100 mL of astrocyte differentiation medium, aseptically mix the following components. For larger volumes, increase the component amounts proportionally. If desired, add 1 mL of Antibiotic-Antimycotic solution per 100 mL of medium.
Component | Final concentration | Amount |
---|---|---|
D-MEM | 1X | 97 mL |
N-2 Supplement | 1% | 1 mL |
GlutaMAX-I Supplement | 2 mM | 1 mL |
FBS | 1% | 1 mL |
Oligodendrocyte differentiation medium requires supplementation of Neurobasal medium with B-27, GlutaMAX-I, and T3. Oligodendrocyte differentiation medium is stable for 2 weeks when stored in the dark at 2–8°C.
To prepare 100 mL of oligodendrocyte differentiation medium, aseptically mix the following components. For larger volumes, increase the component amounts proportionally. If desired, add 1 mL of Antibiotic-Antimycotic solution per 100 mL of medium.
Component | Final concentration | Amount |
---|---|---|
Neurobasal Medium | 1X | 97 mL |
B-27 Serum-Free Supplement | 2% | 2 mL |
GlutaMAX-I Supplement | 2 mM | 1 mL |
T3* | 30 ng/mL | 0.1 mL |
* You can prepare a 30 μg/mL T3 stock solution (1,000X) in distilled water. Filter sterilize the T3 stock solution.
Note: You may coat the plates in advance and store them at 4°C, wrapped tightly with Thermo Scientific™ Parafilm™, for up to 2 weeks. Do not remove CELLStart CTS solution until just prior to use. Make sure the plates do not dry out.
Note: You may store the Geltrex matrix–treated dish at 4°C, wrapped tightly with Parafilm, for up to 1 month. Do not remove Geltrex matrix solution until just prior to use.
Neural stem cells (NSCs) will proliferate as progenitors a few times even after the complete growth medium is replaced with the appropriate differentiation medium. If the cells reach 90% confluency, it might be necessary to split the cells at a 1:2 ratio. However, do not split the cells once they reach day 9–10 of differentiation when they can get damaged during the passaging process.
IMPORTANT! Do not expose cells to air at any time after they have differentiated into neurons.
A | B | ||
C | D |
The table below lists some causes and solutions to help you troubleshoot your potential differentiation problems.
Possible cause | Solution |
---|---|
Culture medium contains bFGF | Remove bFGF from culture medium |
Cell density too high and endogenous bFGF is preventing differentiation | Reduce cell density |
Concentration of GlutaMAX-I Supplement is incorrect | Use the GlutaMAX-I Supplement at a final concentration of 2 mM |
Cells have been passaged too many times | Obtain new Gibco human neural stem cells |
LT154 17-Mar-2011
For Research Use Only. Not for use in diagnostic procedures.