Artificial Intelligence in the Life Sciences (Dec 2021)

Machine Learning Based Prediction of COVID-19 Mortality Suggests Repositioning of Anticancer Drug for Treating Severe Cases

  • Thomas Linden,
  • Frank Hanses,
  • Daniel Domingo-Fernández,
  • Lauren Nicole DeLong,
  • Alpha Tom Kodamullil,
  • Jochen Schneider,
  • Maria J.G.T. Vehreschild,
  • Julia Lanznaster,
  • Maria Madeleine Ruethrich,
  • Stefan Borgmann,
  • Martin Hower,
  • Kai Wille,
  • Torsten Feldt,
  • Siegbert Rieg,
  • Bernd Hertenstein,
  • Christoph Wyen,
  • Christoph Roemmele,
  • Jörg Janne Vehreschild,
  • Carolin E.M. Jakob,
  • Melanie Stecher,
  • Maria Kuzikov,
  • Andrea Zaliani,
  • Holger Fröhlich

Journal volume & issue
Vol. 1
p. 100020

Abstract

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Despite available vaccinations COVID-19 case numbers around the world are still growing, and effective medications against severe cases are lacking. In this work, we developed a machine learning model which predicts mortality for COVID-19 patients using data from the multi-center ‘Lean European Open Survey on SARS-CoV-2-infected patients’ (LEOSS) observational study (>100 active sites in Europe, primarily in Germany), resulting into an AUC of almost 80%. We showed that molecular mechanisms related to dementia, one of the relevant predictors in our model, intersect with those associated to COVID-19. Most notably, among these molecules was tyrosine kinase 2 (TYK2), a protein that has been patented as drug target in Alzheimer's Disease but also genetically associated with severe COVID-19 outcomes. We experimentally verified that anti-cancer drugs Sorafenib and Regorafenib showed a clear anti-cytopathic effect in Caco2 and VERO-E6 cells and can thus be regarded as potential treatments against COVID-19. Altogether, our work demonstrates that interpretation of machine learning based risk models can point towards drug targets and new treatment options, which are strongly needed for COVID-19.

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