Gene Expression Network Analysis Provides Potential Targets Against SARS-CoV-2

  1. Ana I. Hernández Cordero
  2. Xuan Li
  3. Chen Xi Yang
  4. Stephen Milne
  5. Yohan Bossé
  6. Philippe Joubert
  7. Wim Timens
  8. Maarten van den Berge
  9. David Nickle
  10. Ke Hao
  11. Don D. Sin
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Abstract

BACKGROUND

Cell entry of SARS-CoV-2, the novel coronavirus causing COVID-19, is facilitated by host cell angiotensin-converting enzyme 2 (ACE2) and transmembrane serine protease 2 (TMPRSS2). We aimed to identify and characterize genes that are co-expressed withACE2andTMPRSS2, and to further explore their biological functions and potential as druggable targets.

METHODS

Using the gene expression profiles of 1,038 lung tissue samples, we performed a weighted gene correlation network analysis (WGCNA) to identify modules of co-expressed genes. We explored the biology of co-expressed genes using bioinformatics databases, and identified known drug-gene interactions.

RESULTS

ACE2was in a module of 681 co-expressed genes; 12 genes with moderate-high correlation withACE2(r>0.3, FDR<0.05) had known interactions with existing drug compounds.TMPRSS2was in a module of 1,086 co-expressed genes; 15 of these genes were enriched in the gene ontology biologic process ‘Entry into host cell’, and 53TMPRSS2-correlated genes had known interactions with drug compounds.

CONCLUSION

Dozens of genes are co-expressed withACE2andTMPRSS2, many of which have plausible links to COVID-19 pathophysiology. Many of the co-expressed genes are potentially targetable with existing drugs, which may help to fast-track the development of COVID-19 therapeutics.

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