GitHub - ModelDBRepository/267298: Acetylcholine Boosts Dendritic NMDA Spikes in a CA3 Pyramidal Neuron Model (Humphries et al., 2021)

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Acetylcholine Boosts Dendritic NMDA Spikes in a CA3 Pyramidal Neuron Model (Humphries et al., 2021)

modeldb.science/267298

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Name		Name	Last commit message	Last commit date
Latest commit History 1 Commit
ExpAmpar.mod		ExpAmpar.mod
Fig5_example_dend_traces.py		Fig5_example_dend_traces.py
KahpM95.mod		KahpM95.mod
ach_exp.py		ach_exp.py
add_scalebar_func.py		add_scalebar_func.py
ca3_recon.png		ca3_recon.png
ca3_synapse_functions.py		ca3_synapse_functions.py
ca3b-cell1zr-fig9b.hoc		ca3b-cell1zr-fig9b.hoc
cacumm.mod		cacumm.mod
cagk.mod		cagk.mod
cal2.mod		cal2.mod
can2.mod		can2.mod
cat.mod		cat.mod
distr.mod		distr.mod
example_traces.png		example_traces.png
exp2nmdar.mod		exp2nmdar.mod
fixnseg.hoc		fixnseg.hoc
geo-cell1zr.hoc		geo-cell1zr.hoc
h.mod		h.mod
kaprox.mod		kaprox.mod
kcasimple.mod		kcasimple.mod
kd.mod		kd.mod
kdrca1.mod		kdrca1.mod
kir.mod		kir.mod
km.mod		km.mod
measure_dend_Rin_rest.py		measure_dend_Rin_rest.py
na3n.mod		na3n.mod
naxn.mod		naxn.mod
nonlinearity_all_dends.py		nonlinearity_all_dends.py
readme.html		readme.html
scalebars.py		scalebars.py

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NEURON files & Python code from paper:<br>
<br>
Rachel Humphries, Jack R. Mellor, Cian O'Donnell,
Acetylcholine Boosts Dendritic NMDA Spikes in a CA3 Pyramidal Neuron Model,
Neuroscience, 2021,ISSN 0306-4522
https://doi.org/10.1016/j.neuroscience.2021.11.014<br>
<br>
In this paper, this model was used to compare the nonlinearity of NMDA inputs
between dendritic sections in a CA3 pyramidal neuron as well as investigate
the effect of cholinergic modulation/potassium channel inhibition on this 
dendritic NMDA-mediated nonlinearity.<br>
<br>
NEURON and Python 3.8 were used to run the simulations. <br>
<br>
In the folder provided here are the mod files for each of the conductances/synaptic 
mechanisms and the main hoc file (ca3b-cell1zr-fig9b.hoc - adapted from Hemond et al. 
2008 model (accession no.:101629)). <br> 
<br>
The mod files will need to be compiled using the "mknrndll" command (on Windows).<br> 
<br>
**Hoc files** <br>
(adapted from Hemond et al. 2008 (accession no.:101629))<br>
ca3b-cell1zr-fig9b.hoc - main hoc file to set up model and insert conductances<br>
geo-cell1zr.hoc - sets up neuron morphology<br>
fixnseg.hoc - sets number of segments for each section<br>
<br>
Python was used to run simulations, analyse and plot the data.<br> 
<br>
**Python files**<br>
measure_dend_Rin_rest.py - Measures dendritic input resistance at rest.<br>
nonlinearity_all_dends.py - Produces data used in Figures 3 and 4 of the paper. <br>
ach_exp.py - Produces data used in Figures 5 and 6 of the paper. <br>
ca3_synapse_functions.py - additional functions required for running the simulations<br>
Fig5_example_dend_traces.py - Runs the simulation for 6 example dendrites and plots
neuron morphology and example voltages traces from Figure 5A,B+C of the paper. <br>
add_scalebar_func.py & scalebars.py - scalebar functions for plotting<br>
<br>
Simulation outputs are saved in pickle files.<br> 
<br>
**PNG files**<br>
Output from running Fig5_example_dend_traces.py - this will take a couple of hours
to run.<br>
Representative of Figure 5A,B+C from paper - from running the simulation with the 
6 highlighted dendrites.<br>
<br>
**Note** <br>
On a standard PC, ach_exp.py with the default parameters (20 inputs on all 
dendritic sections + all conditions) may take >24 hours to run.<br>