Mar 12, 2025

Public workspacehPSC Culture, iNeuron Differentiation and Culture in N2B27 vs BrainPhys for Immunofluorescence and Biochemistry Assessments of Mitophagy V.3

DOI
dx.doi.org/10.17504/protocols.io.5qpvo36xxv4o/v3
  • 1Department of Neurodegenerative Diseases, UCL Queen Square Institute of Neurology, London, UK;
  • 2Aligning Science Across Parkinson’s (ASAP) Collaborative Research Network, Chevy Chase, MD, USA, 20815
Benjamin O'Callaghan
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DOI: dx.doi.org/10.17504/protocols.io.5qpvo36xxv4o/v3
Protocol CitationBenjamin O'Callaghan, Helene Plun-Favreau 2025. hPSC Culture, iNeuron Differentiation and Culture in N2B27 vs BrainPhys for Immunofluorescence and Biochemistry Assessments of Mitophagy. protocols.io https://dx.doi.org/10.17504/protocols.io.5qpvo36xxv4o/v3Version created by Benjamin O'Callaghan
License: This is an open access protocol distributed under the terms of the Creative Commons Attribution License,  which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Protocol status: Working
We use this protocol and it's working
Created: February 13, 2024
Last Modified: March 12, 2025
Protocol Integer ID: 95168
Keywords: ASAPCRN, iNeuron, BrainPhys, N2B27
Funders Acknowledgements:
Aligning Science Across Parkinson's
Grant ID: ASAP 000478
Abstract
Protocol for the culture of WTC11 hPSCs harbouring a doxycycline-inducible Ngn2 system, the differentiation of this line into iNeurons and subsequent culture in N2B27 or BrainPhys medium.
Materials
Materials/Reagents:
  • iNeuron hPSC Line (iNeuron hPSC Line established on WTC11 hPSC background with TET-ON system at the AAVS1 safe-harbour locus for overexpression of murine Ngn2 and dCas9-KRAB at the CLYBL safe harbour locus was a kind gift from the lab of Michael Ward)
  • mTeSR Plus (STEMCELL Technologies, 100-0276)
  • Ca2+/Mg2+-free Dulbecco’s Phosphate Buffered Saline (DPBS) (Gibco, 14190169)
  • 0.5M EDTA (Invitrogen, 15575020)
  • Geltrex (Gibco, A1413302)
  • TrypLE Express (Gibco, 12604021)
  • Dulbecco’s Modified Eagle Medium (DMEM) (Gibco, 11995-065)
  • Heat-inactivated foetal bovine serum (FBS) (Gibco, A5256801)
  • Y27632 ROCKi (MedChem, HY-10071)
  • DMEM/F12 - HEPES (Gibco, 11330032)
  • Neurobasal (Gibco, 21103049)
  • DMEM, no glucose, no glutamine, no phenol red (Gibco, A1443001)
  • Neurobasal-A Medium, no D-glucose, no sodium pyruvate (Gibco, A2477501)
  • Glucose Solution (Gibco, A2494001)
  • Pyruvate Solution (Gibco, 11360070)
  • Glutamax Supplement (Gibco, 35050061)
  • Non-essential amino acids (NEAA) )Gibco, 35050061)
  • N2 supplement (Gibco, 17502048)
  • B27 Supplement (Gibco, 17504044)
  • Insulin (~10mg/ml, Sigma, I9278)
  • B-mercaptoethanol (50mM, Gibco, 31350010)
  • Accutase (Sigma, A6964)
  • BrainPhys (STEMCELL Technologies, 5790)
  • BDNF (Peprotech, 450-02)
  • NT-3 (Peprotech, 450-03)
  • Doxycycline (Dox) (Sigma, D5207)
  • Trizma hydrochloride (Tris-HCl) (Sigma, T3253)
  • Sodium Hydroxide (Sigma, S5881)
  • Sodium Chloride (NaCl) (Sigma, S9625)
  • 10% w/v Triton-X-100 (Sigma, 93443)
  • Sodium Deoxycholate (Sigma, D6750)
  • Sodium Dodecyl Sulphate (SDS) (Sigma, L4509)
  • PhosSTOP Phosphatase Inhibitors (Sigma, PHOSS-RO)
  • cOmplete mini, EDTA-free Protease Inhibitors (Sigma, 11836170001)
  • 37% Formaldehyde Solution (Sigma, F8775)
  • 10x Phosphate Buffered Saline (Fisher Scientific, 10649743)
  • Dimethyl sulphoxide (Sigma, 41639)
  • Oligomycin (Sigma O4876)
  • Antimycin A (Sigma A8674)
  • PhenoPlate 96-well Microplates (Revvity, 6055308)
  • Opera Phenix High-Content Confocal Microscope System
  • Monarch Total RNA Miniprep Kit (New England Bioscience, T2010S)
  • Nanodrop One Spectrophotometer (Thermo Fisher Scientific, ND-ONE-W)
  • SuperScript IV reverse transcriptase (Invitrogen, 18090050)
  • Random hexamer primers (Thermo Fisher Scientific, SO142)
  • dNTPs (Thermofisher Scientific, R0191)
  • RNaseOUT (Invitrogen, 10777019)
  • Power SYBR Green Master Mix (Applied Biosystems, 4367659)
  • UltraPure DNase/RNase-Free Distilled Water (Invitrogen, 10977035)

Buffers/Stocks:
  • Geltrex is diluted 1:100 in cold serum free DMEM for coating of culture surfaces
  • 0.5mM EDTA = 1:1000 dilution of 0.5M EDTA in Ca2+/Mg2+-free DPBS
  • 5mM Y27632 ROCKi = powder dissolved in Ca2+/Mg2+-free DPBS
  • 2mg/ml doxycycline = powder dissolved in Ca2+/Mg2+-free DPBS
  • 10ug/ml BDNF = powder dissolved in Ca2+/Mg2+-free DPBS
  • 10ug/ml NT-3 = powder dissolved in Ca2+/Mg2+-free DPBS
  • 1x PBS = 1:10 dilution of 10x PBS in dH2O
  • 24% formaldehyde in 1x PBS = 37% formaldehyde diluted with dH2O and 10xPBS
  • 1M Tris-HCl (pH=7.4) = powder dissolved in dH2O and pH to 7.4 with sodium hydroxide
  • 2M NaCl = solid dissolved in dH2O
  • 10% w/v sodium deoxycholate = solid dissolved in dH2O
  • 2% w/v SDS = powder dissolved in dH2O
  • RIPA Lysis Buffer = 50mM Tris-HCl (pH=7.4), 150mM NaCl, 1% w/v triton-X-1OO, 0.5% sodium deoxycholate, 0.1% w/v SDS, 1x phosphatase inhibitors, 1x protease inhibitors, prepared in dH2O
Safety warnings
  • Oligomycin and Antimycin are mitochondrial poisons which should be handled with appropriate PPE and disposed of through safe disposal routes
  • Formaldehyde is systemic poison which should be handled with appropriate PPE and disposed of through safe disposal routes
hPSC Maintenance
hPSC Maintenance
Maintenance of iNeuron hPSCs
The established WTC11 iNeuron hPSC Line is maintained under standard culture conditions.
mTeSR Plus media and geltrex coated dishes.
Passaged as cell aggregates using Concentration0.5 millimolar (mM) EDTA (in Ca2+/Mg2+-free Dulbecco’s Phosphate Buffered Saline (DPBS) ) every 3-4 days to maintain subconfluent culture.
We find the WTC11-iNeuron hPSCs and derived modifications of this cell line to grow quite quickly in our hands compared to other cell lines.
Typical split ratios range from 1:6-1:12.
Maintain cells in a humidified incubator, Temperature37 °C , 5%/95% CO2/AIR mix
Incubation
iNeuron Differentiation
iNeuron Differentiation
4d 6h 8m
4d 6h 8m
d-1: Seed
The below describes a standard seeding and differentiation.
Before beginning make sure you have Geltrex coated 6-well plates (Generally aim to do DurationOvernight but >Duration03:00:00 will be fine).
3h
TryplE split healthy and subconfluent iNeuron hPSCs into a single cell suspension.

Wash with DPBS, add TryplE, incubate until cells are starting to detach. Aspirate TryplE and wash cells off with DMEM 10% FBS cell culture media. Note if cells have already detached en masse in TryplE just add DMEM 10% FBS directly to the TryplE (don't aspirate TryplE first).
Centrifuge Centrifigation240 x g, Room temperature, 00:04:00 to pellet hPSCs
4m
Centrifigation
Remove supernatant and resuspend pellet in mTesR Plus supplemented with Concentration10 micromolar (µM) Y-27632 ROCKi (i.e. 1:500 dilution of Concentration5 millimolar (mM) ROCKi stock).

Generally do this resuspension initially with a p1000 and 1-2ml of media in order to fully dissociate cells into single cell suspension. Then top up with mTeSR Plus +ROCKi (as a guide 1-2ml per well split)
Count viable cells and prepare a cell suspension in mTeSR Plus +ROCKi such that 0.45x10^6 cells are in Amount1.5 mL l (i.e. 0.3x10^6 cells per ml). You will need Amount1.5 mL per well being seeded

Note: As a guide, we typically find the yields of cells on d3 final plating to be approximately 2x that seeded here.
Remove geltrex from coated plates
Plate Amount1.5 mL of the cell suspension prepared in Go togo to step #2.4 per well of geltrex-coated 6-well.

Place in humidified incubator, Temperature37 °C 5%/95% CO2/AIR mixture, DurationOvernight
d0-d2 = Induction Media
Prepare induction media (DMEM/F12 - HEPES, 1x N2 supplement, 1x NEAAs).
I usually prepare enough Induction media without doxycycline for all 3x changes. And then aliquot and add fresh doxycycline each day.
ABC
Induction Media (IM)
Component:Product #:Amount per 50mL:
DMEM/F12, HEPESGibco 1133003249mL
N2 Supplement, 100xGibco 17502048500 ul
Non-essential Amino Acids (NEAA), 100xGibco 11140050500 ul
50ml of Induction Media without Doxycycline

Supplement Induction media from Go togo to step #3 with Concentration2 µg/ml doxycycline (=1:1000 of Concentration2 mg/mL stock)
Assess cells seeded yesterday in Go togo to step #2 Cells should be evenly distributed across the surface and be <50% confluent. I have found that more confluent or "clumpy" seeded cultures can give rise to incomplete neuronal differentiation and contamination of end-point cultures with non-neuronal proliferative cell types.

Remove mTeSR Plus media from cells plated in Go togo to step #2 and add Amount2 mL of induction media + Concentration2 µg/ml doxycycline prepared in Go togo to step #3.1 to each well
Note: I like to do this < Duration24:00:00 after seed in order to ensure culture doesn't get too confluent.

1d
Place in humidified incubator, Temperature37 °C 5%/95% CO2/AIR mixture
Duration24:00:00 (d1) and Duration48:00:00 (d2) later change with Amount2 mL fresh induction media + Concentration2 µg/ml doxycycline prepared as in Go togo to step #3.1
3d
d3: Split and Final Plate
Prepare N2B27 media (1:1 mixture of DMEM/F12:Neurobasal supplemented with 0.5x N2-supplement, 0.5x B27 supplement, 0.5x NEAAs, 0.5x Glutamax, Concentration45 micromolar (µM) 2-Mercaptoethanol,Concentration2.5 µg/ml insulin) and Complete BrainPhys Media (BrainPhys supplemented with 1x B27, Concentration10 ng/ml BDNF and Concentration10 ng/ml NT-3).
ComponentVolumeFinal Concentration
DMEM/F1224.5ml0.5x
Neurobasal24.5ml0.5x
N2 supplement (100x)250ul0.5x
Insulin (10mg/ml)12.5ul2.5ug/ml insulin
Non Essential Amino Acids (100x)250ul0.5x
B-mercaptoethanol (50mM)45ul45uM
B27 supplement500ul0.5x
Glutamax250ul0.5x
50ml of N2B27


ComponentVolumeFinal Concentration
BrainPhys49ml1x
B27 supplement1ml1x
BDNF (10ug/ml)50ul10ng/ml
NT-3 (10ug/ml)50ul10ng/ml
50ml of Complete BrainPhys

For experiments modulating glucose and pyruvate levels of N2B27 a simplified N2B27 base consisting of 1:1 mixture of DMEM, no glucose, no glutamine, no phenol red:Neurobasal-A Medium, no D-glucose, no sodium pyruvate, supplemented with 0.5x N2-supplement, 0.5x B27 supplement, 0.5x NEAAs, Concentration2 millimolar (mM) Glutamax, Concentration45 micromolar (µM) 2-Mercaptoethanol,Concentration2.5 µg/ml insulin. This base was then supplemented additionally with 21.25mM glucose and 0.36mM pyruvate (high glucose) or 2.5mM glucose and 0.5mM pyruvate (low glucose).

ComponentVolumeFinal Concentration
DMEM, no glucose, no glutamine, no phenol red24.5ml0.5x
Neurobasal-A Medium, no D-glucose, no sodium pyruvate24.5ml0.5x
N2 supplement (100x)250ul0.5x
Insulin (10mg/ml)12.5ul2.5ug/ml insulin
Non Essential Amino Acids (100x)250ul0.5x
B-mercaptoethanol (50mM)45ul45uM
B27 supplement (50x)500ul0.5x
Glutamax (100x / 200mM)500ul2mM
Glucose (200g/L / 1.11M)957ul21.25mM
Pyruvate (100mM)180ul0.36mM
50ml of High Glucose Simplified N2B27


ComponentVolumeFinal Concentration
DMEM, no glucose, no glutamine, no phenol red24.5ml0.5x
Neurobasal-A Medium, no D-glucose, no sodium pyruvate24.5ml0.5x
N2 supplement (100x)250ul0.5x
Insulin (10mg/ml)12.5ul2.5ug/ml insulin
Non Essential Amino Acids (100x)250ul0.5x
B-mercaptoethanol (50mM)45ul45uM
B27 supplement (50x)500ul0.5x
Glutamax (100x / 200mM)500ul2mM
Glucose (200g/L / 1.11M)112.6ul2.5mM
Pyruvate (100mM)250ul0.5mM
50ml of Low Glucose Simplified N2B27

High glucose BrainPhys consisted of the Complete BrainPhys formulation outlined above with additional glucose to bring the final glucose concentration from 2.5mM to 21.25mM.


ComponentVolumeFinal Concentration
BrainPhys49ml1x
B27 supplement1ml1x
BDNF (10ug/ml)50ul10ng/ml
NT-3 (10ug/ml)50ul10ng/ml
Glucose (200g/L / 1.11M)844ul21.25mM
50ml of High Glucose BrainPhys

Before beginning make sure you have Geltrex coated plates (Generally aim to do DurationOvernight but >Duration03:00:00 will be fine).
Note: edge effects are quite commonly a problem in small well format dishes such as 96-well and to a lesser degree 24-wells. It is therefore recommended to not use the perimeter wells of such formats, and instead fill these with sterile water or PBS to maintain humidity.
3h
Remove media from cells and wash 1x gently with DPBS
Add accutase solution to each well, sufficient to cover cell layer (Amount0.4-0.5 mL per 6-well).
Monitor cells under microscope until cells have almost entirely detached.
Gently wash cell surface with accutase and collect in 15ml falcon.
Then wash each of the wells with DMEM F12 (just serum free base media) and collect in same falcon tube.
Top up cell suspension to 6x accutase volume with DMEM/F12 HEPES.
E.g. if you collect 4xAmount0.5 mL accutase = Amount2 mL , top up to Amount12 mL with DMEM F12 media.

Pellet cells at Centrifigation300 x g, Room temperature, 00:04:00 and remove accutase containing supernatant. It is good to try and get rid of as much of this as possible as accutase will remain active. If you don't manage to get most of the accutase media off, add another Amount10 mL of F12-HEPES and pellet again to dilute further.

4m
Resuspend cell pellets in small volume of N2B27 or BrainPhys media
I usually resuspend the pellet in Amount500 µL of media per 6-well split.
Count cells and prepare cell suspension at appropriate dilutions for final plating.
We routinely use 12-well formats for biochemistry assays (whole-cell lysate and RNA preps) and 96-well format for imaging based assays.


Plate FormatNumber of cells per wellCell suspension concentration / cells/mlVolume of cell suspension requiredCulture Volume after first change
12-well6x10^56x10^510001000-1500
24-well3x10^56x10^5500500-750
96-well5x10^45x10^5100150
Recommended seeding densities and culture volumes

Remove geltrex from dishes and add desired volume of appropriate cell suspension prepared in Go togo to step #4.8 .
It is recommended to fill any empty wells with sterile water or DPBS to minimise evaporation effects.

Place in humidified incubator, Temperature37 °C 5%/95% CO2/AIR mixture for 2-3hr
d4 Onwards: Half media change

Perform a half media change with N2B27 or BrainPhys twice a week.
I usually perform the first media change after seeding on d6.

For example:
12-well currently in Amount1000 µL . Remove Amount250 µL and add Amount750 µL of fresh media.
96-well currently in Amount100 µL . Remove Amount25 µL and then add Amount75 µL of fresh media.

I then perform the next half media change on d9.
For example:
12-well currently in Amount1500 µL . Remove Amount750 µL and add Amount750 µL of fresh media.
96-well currently in Amount100 µL . Remove Amount25 µL and then add Amount75 µL of fresh media.

And then half media change every Monday or Tuesday and Thursday or Friday thereafter.

Note it is important to be very gentle when doing this. Avoid dropping the media meniscus below full covering of plate and add media as slowly as possible to wells. Older cultures can easily detach as a sheet en masse.


Treatment and Collection
Treatment and Collection
1h
1h
Other differentiation time points might be interesting but we typically culture until at least d17 but have experience maintaining these cultures up until d60 without any obvious negative effects.

We always perform a half media change 24h prior to any collection time-points or assays.

Collection on d24 with a half media change on d23 represents our most typical experimental conditions.
PINK1-Dependent Mitophagy Initiation

We use a Concentration1 micromolar (µM) equimolar mixture of oligomycin and antimycin (O/A) to depolarise the mitochondrial membrane potential and trigger PINK1-dependent mitophagy. Reverse time-point experiments are performed such that all experimental conditions are collected simultaneously.

We usually prepare a Concentration11 micromolar (µM) dilution of O/A in the appropriate culture media (e.g. Amount11 µL of Concentration1 millimolar (mM) O/A in Amount1 mL media) and matching v/v dilution of DMSO (e.g. Amount11 µL of DMSO in Amount1 mL media) as a treatment control.
And then add a volume = 10% of current culture volume in order to get final desired concentration.

For example:
12-well currently in Amount1500 µL . Add Amount150 µL of 11x = 1x final concentration in Amount1650 µL .
96-well currently in Amount150 µL . Add Amount15 µL of 11x = 1x final concentration in Amount165 µL .

NOTE: oligogmycin and antimycin are mitochondrial toxins which should be handled with care.

Toxic
Collection for biochemistry assays

RNA:
At the appropriate treatment time-point media is removed from the culture.
Cells are then washed gently with ice-cold PBS TemperatureOn ice .
Ice-cold PBS is removed and cells snap-frozen in the culture plate by placing in a Temperature-80 °C freezer.


Whole-Cell Protein Lysate:
At the appropriate treatment time-point media is removed from the culture.
Cells are then washed gently with ice-cold PBS TemperatureOn ice .
Ice-cold PBS is removed and ice-cold RIPA cell lysis buffer placed onto the centre of the well (we usually add Amount50 µL -Amount100 µL per 12-well).
Cells are then snap-frozen in the culture plate by placing in a Temperature-80 °C freezer.

NOTE: oligomycin and antimycin are mitochondrial toxins which should be disposed of through appropriate safe disposal routes.
Toxic
Fixation/Collection for Microscopy

At the appropriate treatment time-point add Concentration24 % (w/v) formaldehyde (prepared in 1x PBS) to the media containing wells such that the final concentration will be Concentration4 % (w/v) formaldehyde).

For example:
96-well currently in Amount165 µL . Add Amount33 µL of Concentration24 % (w/v) formaldehyde

Incubate cells at room-temperature for Duration00:20:00 .
Remove formaldehyde containing media and add Amount200 µL of PBS for storage prior to downstream imaging/staining.

NOTE: oligomycin, antimycin and formaldehyde are toxic and should be disposed of through appropriate safe disposal routes.
20m
Protocol references
Soutar MPM, Melandri D, O'Callaghan B, Annuario E, Monaghan AE, Welsh NJ, D'Sa K, Guelfi S, Zhang D, Pittman A, Trabzuni D, Verboven AHA, Pan KS, Kia DA, Bictash M, Gandhi S, Houlden H, Cookson MR, Kasri NN, Wood NW, Singleton AB, Hardy J, Whiting PJ, Blauwendraat C, Whitworth AJ, Manzoni C, Ryten M, Lewis PA, Plun-Favreau H. Regulation of mitophagy by the NSL complex underlies genetic risk for Parkinson's disease at 16q11.2 and MAPT H1 loci. Brain. 2022 Dec 19;145(12):4349-4367. doi: 10.1093/brain/awac325. PMID: 36074904; PMCID: PMC9762952.

Tian R, Gachechiladze MA, Ludwig CH, Laurie MT, Hong JY, Nathaniel D, Prabhu AV, Fernandopulle MS, Patel R, Abshari M, Ward ME, Kampmann M. CRISPR Interference-Based Platform for Multimodal Genetic Screens in Human iPSC-Derived Neurons. Neuron. 2019 Oct 23;104(2):239-255.e12. doi: 10.1016/j.neuron.2019.07.014. Epub 2019 Aug 15. PMID: 31422865; PMCID: PMC6813890.

Fernandopulle MS, Prestil R, Grunseich C, Wang C, Gan L, Ward ME. Transcription Factor-Mediated Differentiation of Human iPSCs into Neurons. Curr Protoc Cell Biol. 2018 Jun;79(1):e51. doi: 10.1002/cpcb.51. Epub 2018 May 18. PMID: 29924488; PMCID: PMC6993937.