Electrophysiology analysis on extracellular recordings from fusion ventral midbrain-striatum-cortical organoid (MISCOs) models pre- and post-optogenetic stimulation using a P-type probe (ASSY-77 P-2) from Cambridge Neurotech.
Optogenetic stimulation was conducted using the open-source device, Pulse Pal. Recordings were acquired using the Open Ephys GUI.
Please find the published paper in Nature Methods here.
Ventral midbrain dopaminergic (mDA) neurons innervate the basal ganglia- particularly the striatum- as well as the cortex and are involved in movement control and reward-related cognition. In Parkinson’s disease (PD), nigrostriatal mDA neurons degenerate and cause PD-typical motor-related impairments, while the dysfunction of mesocorticolimbic mDA neurons is implicated in addiction and neuropsychiatric disorders. Studying the development and neurodegeneration of the human dopaminergic system is therefore broadly relevant but has been limited for lack of an appropriate model. Animal models do not faithfully recapitulate the human dopaminergic system and access to human material is limited. Here, we present a human in vitro model that recapitulates key aspects of dopaminergic innervation of the striatum and cortex. We offer methods where these spatially arranged ventral midbrain-striatum-cortical organoids (MISCOs) are used to study DA neuron maturation, innervation and function with implications for cell therapy and addiction research. We detail protocols for growing VM, striatal and cortical organoids and describe how they fuse in a linear manner when placed in custom embedding molds. We report the formation of functional long-range dopaminergic connections to striatal and cortical tissues in linear assembloids and demonstrate that PSC-derived VM-patterned cells can integrate into the tissue. We successfully study dopaminergic circuit perturbations and show that chronic cocaine treatment caused long-lasting morphological, functional, and transcriptional changes that persisted upon drug withdrawal. Our method opens new avenues to investigate human dopaminergic cell transplantation and circuitry reconstruction as well as the effect of drugs on the human dopaminergic system.
The general pipeline can be compartmentalized into 3 major components: loader, extraction and anaysis + visualization. A simplified schematic can be found below.
All multi-unit spike-related tasks can be performed through the main class, FusedOrgSpikes
. A quickstart code example can be found below for the analysis.
return mua spike times
from fused_org_ephys import FusedOrgSpikes
# set path to metadata
metadata_path = pathlib.PurePath('tests', 'test_data', 'metadata', 'metadata_test.xlsx')
# initiate class to analyse MUA across the entire recording length
muaspikes = FusedOrgSpikes(metadata_path = metadata_path, time_range = [0, None])
# return spike array
mua_data = muaspikes.get_mua_spikearr(expID = ['test_rawfile'])
# return mua spike times
mua_spiketimes = muaspikes.mua_spikes
return calcium imaging peaks
from fused_org_ephys import FusedOrgCa
# set path to processed trace with CaImAn
ca = FusedOrgCa(traces_fname='tests/test_data/gcamp/test_traces.pickle')
# return the calcium peak df
ca_peak_df = ca.return_caspikewidth_df()
To get the current development version in one of your environments, first clone this repository:
git clone https://github.com/mzabolocki/fusion_org_ephys
cd fusion_org_ephys
pip install -r requirements.txt
pip install -r requirements_dev.txt
or alternatively:
git clone https://github.com/mzabolocki/fusion_org_ephys
cd fusion_org_ephys
pip install -e .
All analysis and figure codes are written in Python, and requires Python >= 3.9 to run. They have the following dependencies:
- numpy
- scipy >= 0.19
- pandas
- matplotlib
- tqdm
- scikit-learn
- spikeinterface
It is recommended that Anaconda distribution is used to manage these requirements.
Tests were performed for ubuntu, windows and mac operating systems.
For development version, you can set-up a venv using the following example:
for macos
python3 -m venv miscos_ephys_venv
source miscos_ephys_venv/bin/activate
pip install -r requirements.txt
pip install -r requirements_dev.txt
Please reference the paper via the following citation:
Reumann D, Krauditsch C, Novatchkova M, Sozzi W, Wong S, Zabolocki M, Priouret M, Doleschall B, Ritzau-Reid K, Piber M, Morassut I, Fieseler C, Fiorenzano A, Stevens M, Zimmer M, Bardy C, Parmar M, Knoblich JA. In vitro modeling of the human dopaminergic system using spatially arranged ventral midbrain–striatum–cortex assembloids. Nat Methods (2023). https://doi.org/10.1038/s41592-023-02080-x.
Direct link: https://doi.org/10.1038/s41592-023-02080-x
An example notebook is shown for the following:
- binary file loading and preprocessing
- mua spike extractions
- metadata attachment
- feature quantifications (e.g. mean firing rates)
- raster plot generations
- example notebook for calcium-event peak finding
All notebooks used for figure generations were using data processed with analysis pipelines, and can be found here.
Michael Zabolocki Marthe Priouret Daniel Reumann Charles Fieseler