CORona Drug InTEractions database

Network-based drug repurposing for novel coronavirus 2019-nCoV/SARS-CoV-2.

Yadi Zhou, Yuan Hou, Jiayu Shen, Yin Huang, William Martin, Feixiong Cheng

Abstract

Human coronaviruses (HCoVs), including severe acute respiratory syndrome coronavirus (SARS-CoV) and 2019 novel coronavirus (2019-nCoV, also known as SARS-CoV-2), lead global epidemics with high morbidity and mortality. However, there are currently no effective drugs targeting 2019-nCoV/SARS-CoV-2. Drug repurposing, representing as an effective drug discovery strategy from existing drugs, could shorten the time and reduce the cost compared to de novo drug discovery. In this study, we present an integrative, antiviral drug repurposing methodology implementing a systems pharmacology-based network medicine platform, quantifying the interplay between the HCoV-host interactome and drug targets in the human protein-protein interaction network. Phylogenetic analyses of 15 HCoV whole genomes reveal that 2019-nCoV/SARS-CoV-2 shares the highest nucleotide sequence identity with SARS-CoV (79.7%). Specifically, the envelope and nucleocapsid proteins of 2019-nCoV/SARS-CoV-2 are two evolutionarily conserved regions, having the sequence identities of 96% and 89.6%, respectively, compared to SARS-CoV. Using network proximity analyses of drug targets and HCoV-host interactions in the human interactome, we prioritize 16 potential anti-HCoV repurposable drugs (e.g., melatonin, mercaptopurine, and sirolimus) that are further validated by enrichment analyses of drug-gene signatures and HCoV-induced transcriptomics data in human cell lines. We further identify three potential drug combinations (e.g., sirolimus plus dactinomycin, mercaptopurine plus melatonin, and toremifene plus emodin) captured by the "Complementary Exposure" pattern: the targets of the drugs both hit the HCoV-host subnetwork, but target separate neighborhoods in the human interactome network. In summary, this study offers powerful network-based methodologies for rapid identification of candidate repurposable drugs and potential drug combinations targeting 2019-nCoV/SARS-CoV-2.

Source: PubMed

Related molecules

Name	Synonyms	Genes
Camphor
Equilin
Mesalazine
Paroxetine
Epelerone
Oxymetholone
Dactinomycin
Toremifene
Carvedilol
Mercaptopurine
Emodin
Quinacrine
Melatonin
Irbesartan
Sirolimus
Colchicine

Target	Target affiliation	Drug	Type	Result
Target	Target affiliation	Drug	Type	Result

Name	Synonyms	Genes	Origin
Name	Synonyms	Genes	Origin

Name	Synonyms	PubChem	DrugBank	RCSB PDB	ATC
Name	Synonyms	PubChem	DrugBank	RCSB PDB	ATC

Title	Authors	DOI	Source	Article type	Date
Title	Authors	DOI	Source	Article type	Date

Title	Status	Phases	Start Date	Prim. Comp. Date	Comp. Date	First Post. Date
Title	Status	Phases	Start Date	Prim. Comp. Date	Comp. Date	First Post. Date

CORDITE (CORona Drug InTEractions database) collects and aggregates data from PubMed, MedRxiv, BioRxiv, ChemRxiv and PMC for SARS-CoV-2. Its main focus is set on drug interactions either addressing viral proteins or human proteins that could be used to treat COVID. It collects and provides up-to-date information on computational predictions, in vitro, as well as in vivo study data.

The information provided is for research only and we cannot guarantee the correctness of the data.

Please contact dominik.heider@uni-muenster.de for further information.

Programmable access

There is an open API for access programmatically to the database. The API will print a JSON output:

Interactions

https://cordite-api.uni-muenster.de/api.php?action=list&table=interaction

Targets

https://cordite-api.uni-muenster.de/api.php?action=list&table=target

Drugs

https://cordite-api.uni-muenster.de/api.php?action=list&table=drug

Publications

https://cordite-api.uni-muenster.de/api.php?action=list&table=publication

Clinical trials

https://cordite-api.uni-muenster.de/api.php?action=list&table=clinical_trial