STAT5BN642H is a driver mutation for T cell neoplasia

Hà Phạm; Barbara Maurer; Michaela Prchal‐Murphy; Reinhard Grausenburger; Eva Grundschober; Tahereh Javaheri; Harini Nivarthi; Auke Boersma; Thomas Kolbe; Mohamed Elabd; Florian Halbritter; Jan Pěnčík; Zahra Kazemi; Florian Grebien; Markus Hengstschläger; Lukas Kenner; Stefan Kubicek; Matthias Farlik; Christoph Bock; Peter Valent; Mathias Müller; Thomas Rülicke; Veronika Sexl; Richard Moriggl

doi:10.1172/jci94509

STAT5BN642H is a driver mutation for T cell neoplasia

Hà Phạm(University of Veterinary Medicine Vienna), Barbara Maurer(University of Veterinary Medicine Vienna), Michaela Prchal‐Murphy(University of Veterinary Medicine Vienna), Reinhard Grausenburger(University of Veterinary Medicine Vienna), Eva Grundschober(University of Veterinary Medicine Vienna), Tahereh Javaheri(University of Veterinary Medicine Vienna), Harini Nivarthi(Austrian Academy of Sciences), Auke Boersma(Institute of Laboratory Animal Science), Thomas Kolbe(University of Veterinary Medicine Vienna), Mohamed Elabd(Ludwig Boltzmann Institute for Cancer Research), Florian Halbritter(Austrian Academy of Sciences), Jan Pěnčík(Ludwig Boltzmann Institute for Cancer Research), Zahra Kazemi(Institute for Pharmaeconomic Research), Florian Grebien(Ludwig Boltzmann Institute for Cancer Research), Markus Hengstschläger(Medical University of Vienna), Lukas Kenner(University of Veterinary Medicine Vienna), Stefan Kubicek(Austrian Academy of Sciences), Matthias Farlik(Austrian Academy of Sciences), Christoph Bock(Austrian Academy of Sciences), Peter Valent(Ludwig Boltzmann Institute for Cardiovascular Research), Mathias Müller(University of Veterinary Medicine Vienna), Thomas Rülicke(Institute of Laboratory Animal Science), Veronika Sexl(University of Veterinary Medicine Vienna), Richard Moriggl(University of Veterinary Medicine Vienna)

Journal of Clinical Investigation

December 3, 2017

10.1172/jci94509

Cited by 87Open Access

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Abstract

STAT5B is often mutated in hematopoietic malignancies. The most frequent STAT5B mutation, Asp642His (N642H), has been found in over 90 leukemia and lymphoma patients. Here, we used the Vav1 promoter to generate transgenic mouse models that expressed either human STAT5B or STAT5BN642H in the hematopoietic compartment. While STAT5B-expressing mice lacked a hematopoietic phenotype, the STAT5BN642H-expressing mice rapidly developed T cell neoplasms. Neoplasia manifested as transplantable CD8+ lymphoma or leukemia, indicating that the STAT5BN642H mutation drives cancer development. Persistent and enhanced levels of STAT5BN642H tyrosine phosphorylation in transformed CD8+ T cells led to profound changes in gene expression that were accompanied by alterations in DNA methylation at potential histone methyltransferase EZH2-binding sites. Aurora kinase genes were enriched in STAT5BN642H-expressing CD8+ T cells, which were exquisitely sensitive to JAK and Aurora kinase inhibitors. Together, our data suggest that JAK and Aurora kinase inhibitors should be further explored as potential therapeutics for lymphoma and leukemia patients with the STAT5BN642H mutation who respond poorly to conventional chemotherapy.

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