Pharmacological validation of targets regulating CD14 during macrophage differentiation
Gisela Jimenez-Duran,
Rosario Luque-Martin,
Meghana Patel,
Emma Koppe,
Sharon Bernard,
Catriona Sharp,
Natalie Buchan,
Ceara Rea,
Menno P.J. de Winther,
Nil Turan,
Davina Angell,
Christine A. Wells,
Rick Cousins,
Palwinder K. Mander,
Seth L. Masters
Affiliations
Gisela Jimenez-Duran
Immunology Catalyst, Immunology Network, Adaptive Immunity Research Unit, GSK, Stevenage, UK; Institute of Infection and Immunity, Medical School, University Hospital of Wales, Cardiff University, Wales, UK
Rosario Luque-Martin
Department of Medical Biochemistry, Experimental Vascular Biology, Amsterdam Cardiovascular Sciences, Amsterdam UMC, University of Amsterdam, Amsterdam, the Netherlands
Meghana Patel
Immunology Catalyst, Immunology Network, Adaptive Immunity Research Unit, GSK, Stevenage, UK; Cambridge Academy of Therapeutic Sciences (CATS), University of Cambridge, 17 Mill Lane, Cambridge, CB2 1RX
Emma Koppe
Immunology Catalyst, Immunology Network, Adaptive Immunity Research Unit, GSK, Stevenage, UK
Sharon Bernard
Immuno-Epigenetics, Adaptive Immunity Research Unit, GSK, Stevenage, UK
Catriona Sharp
Immuno-Epigenetics, Adaptive Immunity Research Unit, GSK, Stevenage, UK
Natalie Buchan
Human Genetics Computational Biology, Human Genetics, GSK, Stevenage, UK
Ceara Rea
Molecular Design, Data and Computational Sciences, GSK, Stevenage, UK
Menno P.J. de Winther
Department of Medical Biochemistry, Experimental Vascular Biology, Amsterdam Cardiovascular Sciences, Amsterdam UMC, University of Amsterdam, Amsterdam, the Netherlands
Nil Turan
Immuno-Epigenetics, Adaptive Immunity Research Unit, GSK, Stevenage, UK
Davina Angell
Immuno-Epigenetics, Adaptive Immunity Research Unit, GSK, Stevenage, UK
Christine A. Wells
Centre for Stem Cell Systems, Faculty of Medicine, Dentistry and Health Sciences, University of Melbourne, Parkville, Australia
Rick Cousins
Immunology Catalyst, Immunology Network, Adaptive Immunity Research Unit, GSK, Stevenage, UK; Cinnabar Consulting Limited, Bedford, UK
Palwinder K. Mander
Immuno-Epigenetics, Adaptive Immunity Research Unit, GSK, Stevenage, UK; Corresponding authors.
Seth L. Masters
Immunology Catalyst, Immunology Network, Adaptive Immunity Research Unit, GSK, Stevenage, UK; Inflammation Division, The Walter and Eliza Hall Institute of Medical Research, Parkville, Australia; Department of Medical Biology, The University of Melbourne, Parkville, Australia; Corresponding authors.
The signalling receptor for LPS, CD14, is a key marker of, and facilitator for, pro-inflammatory macrophage function. Pro-inflammatory macrophage differentiation remains a process facilitating a broad array of disease pathologies, and has recently emerged as a potential target against cytokine storm in COVID19. Here, we perform a whole-genome CRISPR screen to identify essential nodes regulating CD14 expression in myeloid cells, using the differentiation of THP-1 cells as a starting point. This strategy uncovers many known pathways required for CD14 expression and regulating macrophage differentiation while additionally providing a list of novel targets either promoting or limiting this process. To speed translation of these results, we have then taken the approach of independently validating hits from the screen using well-curated small molecules. In this manner, we identify pharmacologically tractable hits that can either increase CD14 expression on non-differentiated monocytes or prevent CD14 upregulation during macrophage differentiation. An inhibitor for one of these targets, MAP2K3, translates through to studies on primary human monocytes, where it prevents upregulation of CD14 following M-CSF induced differentiation, and pro-inflammatory cytokine production in response to LPS. Therefore, this screening cascade has rapidly identified pharmacologically tractable nodes regulating a critical disease-relevant process.
