Scientific Reports (Dec 2020)

Dynamic data-driven meta-analysis for prioritisation of host genes implicated in COVID-19

  • Nicholas Parkinson,
  • Natasha Rodgers,
  • Max Head Fourman,
  • Bo Wang,
  • Marie Zechner,
  • Maaike C. Swets,
  • Jonathan E. Millar,
  • Andy Law,
  • Clark D. Russell,
  • J. Kenneth Baillie,
  • Sara Clohisey

DOI
https://doi.org/10.1038/s41598-020-79033-3
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 12

Abstract

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Abstract The increasing body of literature describing the role of host factors in COVID-19 pathogenesis demonstrates the need to combine diverse, multi-omic data to evaluate and substantiate the most robust evidence and inform development of therapies. Here we present a dynamic ranking of host genes implicated in human betacoronavirus infection (SARS-CoV-2, SARS-CoV, MERS-CoV, seasonal coronaviruses). We conducted an extensive systematic review of experiments identifying potential host factors. Gene lists from diverse sources were integrated using Meta-Analysis by Information Content (MAIC). This previously described algorithm uses data-driven gene list weightings to produce a comprehensive ranked list of implicated host genes. From 32 datasets, the top ranked gene was PPIA, encoding cyclophilin A, a druggable target using cyclosporine. Other highly-ranked genes included proposed prognostic factors (CXCL10, CD4, CD3E) and investigational therapeutic targets (IL1A) for COVID-19. Gene rankings also inform the interpretation of COVID-19 GWAS results, implicating FYCO1 over other nearby genes in a disease-associated locus on chromosome 3. Researchers can search and review the gene rankings and the contribution of different experimental methods to gene rank at https://baillielab.net/maic/covid19 . As new data are published we will regularly update the list of genes as a resource to inform and prioritise future studies.