CellPhoneDB is a publicly available repository of curated receptors, ligands and their interactions. Subunit architecture is included for both ligands and receptors, representing heteromeric complexes accurately. This is crucial, as cell-cell communication relies on multi-subunit protein complexes that go beyond the binary representation used in most databases and studies. CellPhoneDB integrates existing datasets that pertain to cellular communication and new manually reviewed information. Databases from which CellPhoneDB gets information are: UniProt, Ensembl, PDB, the IMEx consortium, IUPHAR.
CellPhoneDB can be used to search for a particular ligand/receptor, or interrogate your own single-cell transcriptomics data (or even bulk transcriptomics data if your samples represent pure populations!).
For more details on the analysis check the documentation here, our protocols paper Efremova et al 2020 or Garcia-Alonso et al (for CellphoneDB v3).
- Incorporate spatial information CellPhoneDB now allows the incorporation of spatial information of the cells via the
microenvironments
file. This is a two columns file indicating which cell type is in which spatial microenvironment (see example ). CellphoneDB will use this information to define possible pairs of interacting cells (i.e. pairs of clusters sharing/coexisting in a microenvironment). You can define microenvironments with prior knowledge, imaging or Visium analysis with cell2location. - New analysis method added, using differentially expressed genes (DEGs) instead of random shuffling (
cellphonedb method degs_analysis
). This approach will select interactions where all the genes are expressed by a fraction of cells above a--threshold
and at least one gene is a DEG. The user can identify DEGs using their preferred tool and provide the information to CellphoneDB via text file. The first column should be the cell type/cluster and the second column the associated gene id. The remaining columns are ignored (see example ). We provide notebooks for both Seurat and Scanpy users. - Database update WNT pathway has been further curated.
Check Garcia-Alonso et al for an example applying CellphoneDB v3.
NOTE: Works with Python v3.6 or greater. If your default Python interpreter is for v2.x
(you can check it with python --version
), calls to python
/pip
should be substituted by python3
/pip3
.
We highly recommend using an isolated python environment (as described in steps 1 and 2) using conda or virtualenv but you could of course omit these steps and install via pip
immediately.
- Create python=>3.6 environment
- Using conda:
conda create -n cpdb python=3.7
- Using virtualenv:
python -m venv cpdb
- Activate environment
- Using conda:
source activate cpdb
- Using virtualenv:
source cpdb/bin/activate
- Install CellPhoneDB
pip install cellphonedb
Please, activate your environment if you didn't previously
- Using conda:
source activate cpdb
- Using virtualenv:
source cpdb/bin/activate
To use the example data, please download meta/counts test data. i.e.
curl https://raw.githubusercontent.com/Teichlab/cellphonedb/master/in/example_data/test_counts.txt --output test_counts.txt
curl https://raw.githubusercontent.com/Teichlab/cellphonedb/master/in/example_data/test_meta.txt --output test_meta.txt
Counts file can be a text file or a h5ad
(recommended), h5
or a path to a folder containing a 10x output with mtx/barcode/features
files.
cellphonedb method degs_analysis test_meta.txt test_counts.txt test_DEGs.txt
cellphonedb method statistical_analysis test_meta.txt test_counts.txt
- Using text files
cellphonedb method analysis test_meta.txt test_counts.txt
- Using h5ad count file
cellphonedb method analysis test_meta.txt test_counts.h5ad
cellphonedb method statistical_analysis test_meta.txt test_counts.txt --microenvs test_microenvs.txt
cellphonedb method degs_analysis test_meta.txt test_counts.txt test_DEGs.txt --microenvs test_microenvs.txt
To understand the different analysis and results, please check the results documentation.
~ Optional Method parameters:
--counts-data
: [ensembl | gene_name | hgnc_symbol] Type of gene identifiers in the counts data--project-name
: Name of the project. A subfolder with this name is created in the output folder--iterations
: Number of iterations for the statistical analysis [1000]--threshold
: % of cells expressing the specific ligand/receptor--result-precision
: Number of decimal digits in results [3]--output-path
: Directory where the results will be allocated (the directory must exist) [out]--output-format
: Output format of the results files (extension will be added to filename if not present) [txt]--means-result-name
: Means result filename [means]--significant-means-result-name
: Significant mean result filename [significant_means]--deconvoluted-result-name
: Deconvoluted result filename [deconvoluted]--verbose/--quiet
: Print or hide CellPhoneDB logs [verbose]--subsampling
: Enable subsampling--subsampling-log
: Enable subsampling log1p for non log-transformed data inputs !!mandatory!!--subsampling-num-pc
: Subsampling NumPC argument (number of PCs to use) [100]--subsampling-num-cells
: Number of cells to subsample to [1/3 of cells]
~ Optional Method Statistical parameters
--microenvs
: Spatial microenviroments input file. Restricts the cluster/cell_type interacting pairs to the cluster/cell_type sharing a microenviroment (i.e. only test a combination of clusters if these coexist in a microenviroment). This file should contain two columns: 1st column indicates the cluster/cell_type, 2nd column indicates the microenviroment name. See example here.--pvalues-result-name
: P-values result filename [pvalues]--pvalue
: P-value threshold [0.05]--debug-seed
: Debug random seed -1. To disable it please use a value >=0 [-1]--threads
: Number of threads to use. >=1 [4]
Set number of iterations and threads
cellphonedb method statistical_analysis yourmetafile.txt yourcountsfile.txt --iterations=10 --threads=2
Set project subfolder
cellphonedb method analysis yourmetafile.txt yourcountsfile.txt --project-name=new_project
Set output path
mkdir custom_folder
cellphonedb method statistical_analysis yourmetafile.txt yourcountsfile.txt --output-path=custom_folder
Subsampling
cellphonedb method analysis yourmetafile.txt yourcountsfile.txt --subsampling --subsampling-log false --subsampling-num-cells 3000
In order to plot results from the statistical methods, you need to run it first.
Currently there are two plot types available: dot_plot
& heatmap_plot
Once you have the needed files (means
& pvalues
from method statistical_analysis or means
& relevant_interactions
from method degs_analysis) you can proceed as follows:
cellphonedb plot dot_plot
cellphonedb plot heatmap_plot yourmeta.txt
This plot type requires ggplot2
R package installed and working
You can tweak the options for the plot with these arguments:
--means-path
: The means output file [./out/means.txt]--pvalues-path
: The pvalues output file [./out/pvalues.txt]--output-path
: Output folder [./out]--output-name
: Filename of the output plot [plot.pdf]--rows
: File with a list of rows to plot, one per line [all available]--columns
: File with a list of columns to plot, one per line [all available]--verbose / --quiet
: Print or hide CellPhoneDB logs [verbose]
Available output formats are those supported by R's ggplot2
package, among others they are:
pdf
png
jpeg
This format will be inferred from the --output-name
argument
To plot only desired rows/columns (samples for rows and columns based in example data files):
cellphonedb plot dot_plot --rows in/rows.txt --columns in/columns.txt
This plot type requires pheatmap
R package installed and working
This plot type includes two features count
& log_count
You can tweak the options for the plot with these arguments:
--pvalues-path
: The pvalues output file [./out/pvalues.txt]--output-path
: Output folder [./out]--count-name
: Filename of the output plot [heatmap_count.pdf]--log-name
: Filename of the output plot using log-count of interactions [heatmap_log_count.pdf]--count-network-name
: Filename of the output network file [count_network.txt]--interaction-count-name
: Filename of the output interactions-count file [interactions_count.txt]--pvalue
: pvalue threshold to consider when plotting [0.05]--verbose / --quiet
: Print or hide cellphonedb logs [verbose]
Available output formats are those supported by R's pheatmap
package, among others they are:
pdf
png
jpeg
This format will be inferred from the --count-name
& --log-name
arguments.
CellPhoneDB databases can be updated from the remote repository through our tool. Furthermore, available versions can be listed and downloaded for use.
To use one of those versions, a user must provide the argument --database <version_or_file>
to the method to be executed.
If the given parameter is a readable database file, it will be used as is. Otherwise it will use some of the versions matching the selected version.
If the selected version does not exist in the local environment it will be downloaded from the remote repository. (See below.) If no --database
argument is given in methods execution, it will use the latest local version available.
Downloaded versions will be stored in a user folder under ~/.cpdb/releases
The command to list available versions from the remote repository is:
cellphonedb database list_remote
The command to list available versions from the local repository is:
cellphonedb database list_local
The command to download a version from the remote repository is:
cellphonedb database download
or
cellphonedb database download --version <version_spec|latest>
whereby version_spec
must be one of the listed in the database list_remote
command.
If no version is specified or latest
is used as a version_spec
, the newest available version will be downloaded
A user can generate custom databases and use them. In order to generate a new database, a user can provide his/her own lists.
These lists can be: genes, proteins, complexes and/or interactions. In the generation process they will get merged with the ones from the CellPhoneDB release sources. The user lists have higher precedence than the ones included in CellPhoneDB package.
To generate such a database the user has to issue this command:
cellphonedb database generate
Generate specific parameters:
--user-protein
: Protein input file--user-gene
: Gene input file--user-complex
: Complex input file--user-interactions
: Interactions input file--fetch
: Some lists can be downloaded from original sources while creating the database, eg: uniprot, ensembl. By default, the snapshots included in the CellPhoneDB package will be used; to enable a fresh copy--fetch
must be appended to the command--result-path
: Output folder--log-file
: Log file--user-interactions-only
: Use only interactions provided.
Result database file is generated in the folder out
with cellphonedb_user_{datetime}.db
. The user defined input tables will be merged with the current CellPhoneDB input tables. To use this database, please use --database
parameter in methods.
E.g:
cellphonedb method statistical_analysis in/example_data/test_meta.txt in/example_data/test_counts.txt --database out/cellphonedb_user_2019-05-10-11_10.db
-
To add or correct some interactions
Input:
your_custom_interaction_file.csv
: Comma separated file (use mandatory columns!) with interactions to add/correct.
Command:
cellphonedb database generate --user-interactions your_custom_interaction_file.csv
Result:
New database file with CellPhoneDB interactions + user custom interactions. For duplicated interactions, user lists overwrite the CellPhoneDB original data.
-
To use only user-specific interactions
Input:
your_custom_interaction_file.csv
: Comma separated file (use mandatory columns!) with interactions to use.
Command:
cellphonedb database generate --user-interactions your_custom_interaction_file.csv --user-interactions-only
Result:
New database file with only user custom interactions.
-
To correct any protein data
Input:
your_custom_protein_file.csv
: Comma separated file (use mandatory columns!) with proteins to overwrite.
Command:
cellphonedb database generate --user-protein your_custom_protein_file.csv
Result:
New database file with CellPhoneDB interactions + user custom interactions. For duplicated interactions or proteins, user lists overwrite the CellPhoneDB original data.
-
To add some interactions and correct any protein data
Input:
your_custom_interaction_file.csv
: Comma separated file (use mandatory columns!) with interactions to add/correct.your_custom_protein_file.csv
: Comma separated file (use mandatory columns!) with proteins to overwrite.
Command:
cellphonedb database generate --user-interactions your_custom_interaction_file.csv --user-protein your_custom_protein_file.csv
Result:
New database file with CellPhoneDB interactions + user custom interactions. On duplicated interactions or proteins, user list overwrites CellPhoneDB original data.
-
To update remote sources (UniProt, IMEx, ensembl, etc.)
IMPORTANT
This command uses external resources allocated in external servers. The command may not end correctly if external servers are not available. The timing of this step depends on external servers and the user's internet connection and can take a lot of time.
Input:
your_custom_interaction_file.csv
: Comma separated file (use mandatory columns!) with interactions to add/correct.your_custom_protein_file.csv
: Comma separated file (use mandatory columns!) with proteins to overwrite.
Command:
cellphonedb database generate --fetch
Result:
New database file with CellPhoneDB interactions + user custom interactions. For duplicated interactions or proteins, user lists overwrite the CellPhoneDB original data.
Some lists can be downloaded from original sources while creating the database, e.g. uniprot, ensembl. By default, the snapshots included in the CellPhoneDB package will be used---to enable a fresh copy --fetch
must be appended to the command.
In order to use specific lists those can be specified like this --user-protein
, --user-gene
, --user-complex
, --user-interactions
, --user-interactions-only
followed by the corresponding file path.
The database file can be then used as explained below. The intermediate lists used for the generation will be saved along the database itself.
As the lists are processed, then filtered, and lastly collected, two versions may exist: _generated
is the unfiltered one whereas _input
is the final state prior being inserted in the database.
CellPhoneDB is an open-source project. If you are interested in contributing to this project, please let us know.
You can check all project documentation in the Docs section