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A dominant gain-of-function mutation in universal tyrosine kinase SRC causes thrombocytopenia, myelofibrosis, bleeding, and bone pathologies

Turro, Ernest, Greene, Daniel, Wijgaerts, Anouck, Thys, Chantal, Lentaigne, Claire, Bariana, Tabir K., Westbury, Sarah K., Kelly, Anne M., Selleslag, Dominik, Stephens, Jonathan C., Papadia, Sofia, Simeoni, Ilenia, Penkett, Christopher J., Ashford, Sofie, Attwood, Antony, Austin, Steve, Bakchoul, Tamam, Collins, Peter ORCID: https://orcid.org/0000-0002-6410-1324, Deevi, Sri V. V., Favier, Remi, Kostadima, Myrto, Lambert, Michele P., Mathias, Mary, Millar, Carolyn M., Peerlinck, Kathelijne, Perry, David J., Schulman, Sol, Whitehorn, Deborah, Wittevrongel, Christine, De Maeyer, Marc, Rendon, Augusto, Gomez, Keith, Erber, Wendy N., Mumford, Andrew D., Nurden, Paquita, Stirrups, Kathleen, Bradley, John R., Raymond, F. Lucy, Laffan, Michael A., Van Geet, Chris, Richardson, Sylvia, Freson, Kathleen and Ouwehand, Willem H. 2016. A dominant gain-of-function mutation in universal tyrosine kinase SRC causes thrombocytopenia, myelofibrosis, bleeding, and bone pathologies. Science Translational Medicine 8 (328) , 328ra30. 10.1126/scitranslmed.aad7666

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Abstract

The Src family kinase (SFK)member SRC is amajor target in drug development because it is activated in many human cancers, yet deleterious SRC germline mutations have not been reported. We used genome sequencing and Human Phenotype Ontology patient coding to identify a gain-of-function mutation in SRC causing thrombocytopenia, myelofibrosis, bleeding, and bone pathologies in nine cases. Modeling of the E527K substitution predicts loss of SRC's self-inhibitory capacity, whichwe confirmedwith in vitro studies showing increased SRC kinase activity and enhanced Tyr419 phosphorylation in COS-7 cells overexpressing E527K SRC. The active form of SRC predominates in patients' platelets, resulting in enhanced overall tyrosine phosphorylation. Patientswith myelofibrosis have hypercellular bone marrow with trilineage dysplasia, and their stem cells grown in vitro form more myeloid and megakaryocyte (MK) colonies than control cells. These MKs generate platelets that are dysmorphic, low in number, highly variable in size, and have a paucity of a-granules. Overactive SRC in patient-derived MKs causes a reduction in proplatelet formation, which can be rescued by SRC kinase inhibition. Stem cells transduced with lentiviral E527K SRC formMKs with a similar defect and enhanced tyrosine phosphorylation levels. Patient-derived and E527K-transduced MKs show Y419 SRC- positive stained podosomes that induce altered actin organization. Expression of mutated src in zebrafish recapitulates patients' blood and bone phenotypes. Similar studies of platelets andMKs may reveal the mechanism underlying the severe bleeding frequently observed in cancer patients treated with next-generation SFK inhibitors. © 2016 by the American Association for the Advancement of Science; all rights reserved.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Medicine
Additional Information: BRIDGE-BPD Consortium
Publisher: American Association for the Advancement of Science
ISSN: 1946-6234
Date of Acceptance: 12 January 2016
Last Modified: 02 Nov 2022 11:23
URI: https://orca.cardiff.ac.uk/id/eprint/101849

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